SALTS AND SOLID FORMS OF (R)-1-(5-METHOXY-1H-INDOL-1-YL)-N,N-DIMETHYLPROPAN-2-AMINE

Abstract

The present disclosure is directed to salt and solid forms of (R)-1-(5-METHOXY-1H-INDOL-1-YL)-N,N-DIMETHYLPROPAN-2-AMINE and methods of treating neurological disorder and/or a psychiatric disorder in a subject in need thereof.

Description

CROSS-REFERENCES TO RELATED APPLICATIONS

This application claims priority to U.S. Provisional Application No. 63/280,084 filed Nov. 16, 2021; U.S. Provisional Application No. 63/310,977, filed Feb. 16, 2022; U.S. Provisional Application No. 63/316,924, filed Mar. 4, 2022; U.S. Provisional Application No. 63/280,085, filed Nov. 16, 2021, and U.S. Provisional Application No. 63/319,735, filed Mar. 14, 2022 all of which are incorporated herein by reference in their entirety.

BACKGROUND OF THE INVENTION

The development of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dim ethyl propan-2-amine is limited by difficulties in formulating (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine, e.g., salt and solid forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine including solid forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate. Accordingly, the present disclosure addresses this unmet need.

SUMMARY

In one aspect, this disclosure provides an (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine (compound 1) salt. In one aspect, this disclosure provides a polymorphic form of a (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine (compound 1) salt.

Disclosed herein are novel forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate, including solid forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate, and hemifumarate forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dim ethyl propan-2-amine. The solid form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate, e.g., monofumarate or hemifumarate may have at least one improved property compared to other forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine, such as (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate.

Also disclosed herein is a solid form of (R)-1-(5-methoxy-1H-indol-1-yl) N,N-dimethylpropan-2-amine fumarate that is made by the method described in Example 1. The solid form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate made by the disclosed method may have at least one improved property compared to a known form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate. In one embodiment, the (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate solid form disclosed herein is a crystalline form that has an improved property relative to amorphous (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate. In one embodiment a crystalline form disclosed herein is a polymorph of (R)-1-(5-methoxy-1H-indol-1-yl) N,N-dimethylpropan-2-amine fumarate. In certain embodiments, a disclosed polymorph of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate has an improved property over one or more other solid forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate.

In some embodiments, the at least one improved property of the solid form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate disclosed herein may comprise a physical property, chemical property, pharmacokinetic property, or a combination thereof. In some embodiments, the at least one improved property comprises a melting point, glass transition temperature, flowability, thermal stability, shelf life, stability against polymorphic transition, hygroscopic properties, solubility in water and/or organic solvents, reactivity, compatibility with excipients and/or delivery vehicles, bioavailability, absorption, distribution, metabolism, excretion, toxicity including cytotoxicity, dissolution rate, half-life, or a combination thereof, that is improved compared to an amorphous sample of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate.

In some embodiments, the solid form of (R)-1-(5-methoxy-1H-indol-1-yl)N,N-dimethylpropan-2-amine fumarate may be a solvate, such as a hydrate.

Also disclosed herein are embodiments, of a pharmaceutical composition, comprising a solid form of and/or a previously known crystalline form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate, and a pharmaceutically acceptable excipient.

A method for administering the solid form of and/or a previously known crystalline form of and/or a previously known crystalline form of and/or a previously known crystalline form of and/or a previously known crystalline form of and/or a previously known crystalline form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dim ethyl propan-2-amine fumarate also is disclosed herein. In some embodiments, the method comprises administering to a subject an effective amount of a solid form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate, or a pharmaceutical composition thereof. In some embodiments, the subject is suffering from a neurological disease or a psychiatric disorder, or both, such as a neurodegenerative disorder. The neurological disorder or psychiatric disorder, or both, may comprise depression, addiction, anxiety, or a post-traumatic stress disorder, and/or the neurological disorder or psychiatric disorder, or both, may comprise treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, or substance use disorder. In some embodiments, the neurological disorder or psychiatric disorder, or both, comprises stroke, traumatic brain injury, or a combination thereof.

In some embodiments, administering the solid form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate comprises oral, intravenous, parenteral, or topical administration. In certain embodiments, oral administration is used, but in other particular embodiments, administration is by injection, inhalation, intraocular, intravaginal, intrarectal or transdermal routes.

In some embodiments, the salt is crystalline. In some embodiments, the salt is amorphous. In some embodiments, the salt is an acid addition salt. In some embodiments, the salt is a 4:1 compound 1:acid salt. In some embodiments, the salt is a 3:1 compound 1:acid salt. In some embodiments, the salt is a 2:1 compound 1:acid salt. In some embodiments, the salt is a 1:1 compound 1:acid salt. In some embodiments, the salt is a 1:2 compound 1:acid salt. In some embodiments, the salt is a 1:3 compound 1:acid salt. In some embodiments, the salt is a 1:4 compound 1:acid salt.

In some embodiments, the salt is a fumarate or hemi-fumarate salt. In some embodiments, the compound 1 salt is a crystalline compound 1 monofumarate Form A salt. In some embodiments, the compound 1 salt is a compound 1 monofumarate salt that is a crystalline polymorphic form characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 22.4°2θ, 15.9°2θ, and 19.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is a crystalline polymorphic form characterized by XRPD signals at 22.4°2θ, 15.9°2θ, and 19.5°2θ. In some embodiments, the compound 1 monofumarate salt is a crystalline polymorphic form characterized by an XRPD pattern substantially similar to that shown in FIG. 157. In some embodiments, the compound 1 monofumarate salt is a crystalline polymorphic form characterized by a DSC diagram having a melting signal at about 118.2° C. In some embodiments, the compound 1 monofumarate salt is a crystalline polymorphic form characterized by a DSC profile substantially similar to that shown in FIG. 159. In some embodiments, the compound 1 monofumarate salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 207.9° C. In some embodiments, the compound 1 monofumarate salt is a crystalline polymorph characterized by a TGA diagram substantially similar to that shown in FIG. 158.

In some embodiments, the compound 1 monofumarate salt is a crystalline compound 1 fumarate Form B salt. In some embodiments, the compound 1 monofumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from 17.6°2θ, 19.4°2θ, and 23.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is a crystalline polymorph characterized by XRPD signals at 17.6°2θ, 19.4°2θ, and 23.5°28 (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is a crystalline polymorph characterized by XRPD signals at 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, and 24.7°2θ (10.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 32. In some embodiments, the compound 1 monofumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 5. In some embodiments, the compound 1 monofumarate salt is a crystalline polymorph characterized by a DSC diagram having an melting signal at about 66.2° C. In some embodiments, the compound 1 monofumarate salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 208.4° C.

In some embodiments, the compound 1 salt is a crystalline compound 1 fumarate Pattern 3a salt. In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 24.0°2θ, 19.8°2θ, and 18.1°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 24.0°2θ, 19.8°2θ, and 18.1°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 18.1°2θ, 19.8°2θ, 19.9°2θ, 23.6°28, and 24.0°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 9.5°2θ, 11.9°2θ, 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 25.7°2θ, 28.3°2θ, 30.0°2θ, and 31.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 36. In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 70.

In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 15.8°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 15.8°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 15.1°2θ, 15.8°2θ, 19.2°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 11.5°2θ, 13.3°2θ, 13.5 °2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 23.1°2θ, 24.0°2θ, 24.7 °2θ, 26.9°2θ, 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 35. In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 7. In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by DSC having a melting signal at about 97.2° C. In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by DSC profile substantially similar to that shown in FIG. 60. In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 246.4° C. In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by a TGA diagram substantially similar to that shown in FIG. 59.

In some embodiments, the compound 1 salt is a crystalline compound 1 hemi-fumarate Form I salt. In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 15.9°2θ, 21.0°2θ, and 19.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 15.9°2θ, 21.0°2θ, and 19.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 15.2°2θ, 15.9°2θ, 19.4°2θ, 21.0°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 11.7°2θ, 13.4°2θ, 13.7 °2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 33. In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by DSC having a melting signal at about 91.5° C. In some embodiments, the compound 1 hemi-fumarate salt is a crystalline polymorph characterized A TGA diagram having an onset at about 246.4° C.

In some embodiments, the compound 1 salt is a crystalline compound 1 fumarate Pattern 5 salt. In some embodiments, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 7.9°2θ, 21.6°2θ, and 20.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 7.9°2θ, 21.6°2θ, and 20.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 7.9°2θ, 15.7°2θ, 20.2°2θ, 21.6°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 38. In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 1.

In some embodiments, the compound 1 salt is a crystalline compound 1 fumarate Pattern 6 salt. In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.3°2θ, 8.2°2θ, and 20.2°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 8.2°2θ, and 20.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 8.2°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, and 23.2°2θ (±0.2°2θ; 00.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 17.2°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, 27.6°2θ, 29.1°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 39. In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 71.

In some embodiments, the compound 1 salt is a compound 1 HCl salt. In some embodiments, the compound 1 HCl salt is a crystalline HCl salt. In some embodiments, the compound 1 HCl salt is a crystalline HCl Form A salt. In some embodiments, the compound 1 HCl salt is a crystalline HCl Form B salt.

In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 18.1°2θ, 24.9°2θ, and 21.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 18.1°2θ, 24.9°2θ, and 21.7°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 17.8°2θ, 18.1°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 6.4°2θ, 12.4°2θ, 13.6°2θ, 15.3°2θ, 17.6°2θ, 17.8°2θ, 18.1 °2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0 °2θ, 30.1°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 41. In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 167. In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 229.8° C. In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by a DSC curve that is substantially similar to that shown in FIG. 190. In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 243.3° C. In some embodiments, wherein the compound 1 HCl salt is a crystalline polymorph characterized by a TGA diagram that is substantially similar to that shown in FIG. 195.

In some embodiments, the compound 1 salt is a maleate salt. In some embodiments, the maleate salt is a crystalline maleate salt. the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 23.7°2θ, 21.6°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 23.7°2θ, 21.6°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 19.2°2θ, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 10.9°2θ, 11.8°2θ, 16.9°2θ, 18.6°2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 43. In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 205. In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 60.2° C. In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 199. In some embodiments, compound 1 maleate salt is a crystalline polymorph characterized by a TGA curve having an onset at about 200.0° C. In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by a TGA curve that is substantially similar to that shown in FIG. 223.

In some embodiments, the compound 1 salt is a benzoate salt. In some embodiments, the benzoate salt is a crystalline benzoate salt. In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 17.5°2θ, 14.5°2θ, and 18.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 17.5°2θ, 14.5°2θ, and 18.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 13.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, and 19.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 12.5°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 19.7°2θ, 20.6°2θ, 23.7°2θ, 25.2°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 45. In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 214. In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 214. In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 101.0° C. In some embodiments, wherein the compound 1 benzoate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 208. In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by a TGA curve having an onset at about 102.2° C. In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by a TGA curve that is substantially similar to that shown in FIG. 213.

In some embodiments, the compound 1 salt is a tosylate salt. In some embodiments, the tosylate salt is a crystalline tosylate salt. In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.8°2θ, 19.5°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 19.8°2θ, 19.5°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 14.5°2θ, 15.3°2θ, 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3 °2θ, 16.3°2θ, 16.5°2θ, 18.2°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 20.7°2θ, 22.9°2θ, 23.3°2θ, 25.5 °2θ, 26.0°2θ, 26.2°2θ, 26.6°2θ, 29.4°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 113. In some embodiments the compound 1 tosylate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 170. In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 137.7° C. In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 234. In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by a TGA curve having a TGA curve that is substantially similar to that shown in FIG. 235. In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by a TGA curve as shown in FIG. 235.

In some embodiments, the compound 1 salt is a tartrate salt. In some embodiments, the tartrate salt is a crystalline tartrate salt. In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 4.3°2θ, 17.5°2θ, and 19.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 17.5°2θ, and 19.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5°2θ, 19.3°2θ, and 20.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 8.7°2θ, 13.1°2θ, 14.5°2θ, 16.2°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.2°2θ, 29.7°2θ, 30.8°2θ, 31.8°2θ, 33.3°2θ, 35.0°2θ, 36.1°2θ, 37.6°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 171. In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 171. In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 115.5° C. In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 238. In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by a TGA curve that is substantially similar to that shown in FIG. 239. In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by a TGA curve as shown in FIG. 239.

In some embodiments, the compound 1 salt is a HBr salt. In some embodiments, the HBr salt is a crystalline HBr salt. In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 21.6°2θ, 18.1°2θ, and 12.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 21.6°2θ, 18.1°2θ, and 12.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 18.1°2θ, 21.6°2θ, 24.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0°2θ, 14.2°2θ, 17.5 °2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7°2θ, 24.4°2θ, 25.5 °2θ, 26.1°2θ, 26.8°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 29.6°2θ, 30.1°2θ, 33.3°2θ, and 34.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 172. In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 172. In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 194.8° C. In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 241. IN some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by a TGA curve having an onset at about 253.7. In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by a TGA curve that is substantially similar to that shown in FIG. 242.

In some embodiments, the compound 1 salt is a galactarate salt. In some embodiments, the galactarate salt is a crystalline galactarate salt. In some embodiments, the compound 1 galactarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.6°2θ, 5.2°2θ, and 15.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 galactarate salt is a crystalline polymorph characterized by XRPD signals at 19.6°2θ, 5.2°2θ, and 15.9°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 15.9°2θ, 17.9°2θ, 19.6 °2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 24.9°2θ, 25.2°2θ, 26.7°2θ, 30.7°2θ, 34.4°2θ, 34.8°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, wherein the compound 1 galactarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 49. In some embodiments, the compound 1 galactarate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 173. In some embodiments, the compound 1 galactarate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 167.5° C. In some embodiments, the compound 1 galactarate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 245. In some embodiments, the compound 1 salt is a succinate salt. In some embodiments, the succinate salt is a crystalline succinate salt. In some embodiments, the compound 1 succinate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 18.2°2θ, 19.3°2θ, and 22.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, compound 1 succinate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 19.3°2θ, and 22.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, compound 1 succinate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, compound 1 succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 13.9°2θ, 17.3°2θ, 17.7 °2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 21.2°2θ, 21.3°2θ, 22.0°2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5 °2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 succinate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 50. In some embodiments, the compound 1 succinate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 174. In some embodiments, the compound 1 succinate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 89.8° C. In some embodiments, the compound 1 succinate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 248.

In some embodiments, the compound 1 salt is a succinate salt. In some embodiments, the succinate salt is a crystalline succinate salt. In some embodiments, the compound 1 citrate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 23.9°2θ, 18.2°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, the compound 1 citrate salt is a crystalline polymorph characterized by XRPD signals at 23.9°2θ, 18.2°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 citrate salt is a crystalline polymorph characterized by XRPD signals 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 citrate salt is a crystalline polymorph characterized by XRPD signals 14.2°2θ, 14.4°2θ, 18.0°2θ, 18.2 °2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 27.6°2θ, 28.9°2θ, 31.1°2θ, 31.4°2θ, 33.7°2θ, 36.2 °2θ, 37.0°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 citrate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 51. In some embodiments, the compound 1 citrate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 257. In some embodiments, the compound 1 citrate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 182.8° C. In some embodiments, the compound 1 citrate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 258.

In some embodiments, the compound 1 salt is a malate salt. In some embodiments, the malate salt is a crystalline malate salt. In some embodiments, the compound 1 malate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.3°2θ, 24.4°2θ, and 29.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, the compound 1 malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 24.4°2θ, and 29.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 21.0°2θ, 24.4°2θ, 29.4°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 malate salt is a crystalline polymorph characterized by XRPD signals at 7.5°2θ, 19.3°2θ, 20.9 °2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 27.7°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, 37.0°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 malate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 52. In some embodiments, the compound 1 malate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 261. In some embodiments, the compound 1 malate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 193.5° C. In some embodiments, the compound 1 malate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 262.

In some embodiments, the compound 1 salt is a glucuronate salt. In some embodiments, the glucuronate salt is a crystalline glucuronate salt. In some embodiments, the glucuronate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 20.0°2θ, 20.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, the glucuronate salt is a crystalline polymorph characterized by XRPD signals at 20.0°2θ, 20.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the glucuronate salt is a crystalline polymorph characterized by XRPD signals at 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the glucuronate salt is a crystalline polymorph characterized by XRPD signals at 15.1°2θ, 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 30.6°2θ, and 35.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 glucuronate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 53. In some embodiments, the compound 1 glucuronate salt of any one of claims 108 to 110, wherein compound 1 glucuronate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 259. In some embodiments, the compound 1 glucuronate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 131.83° C. In some embodiments, the compound 1 glucuronate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 260.

In some embodiments, the compound 1 salt is an ascorbate salt. In some embodiments, the ascorbate salt is a crystalline ascorbate salt. In some embodiments, compound 1 ascorbate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.3°2θ, 24.4°2θ, and 29.4°2θ (±0.2°2θ; 10.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation). In some embodiments, the compound 1 ascorbate salt is a crystalline polymorph characterized by XRPD signals at 34.8°2θ, 10.5°2θ, and 19.9°2θ (10.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 19.9°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 16.1°2θ, 17.5°2θ, 19.9°2θ, 21.1°2θ, 25.3°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; 10.1 °2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 ascorbate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 54. In some embodiments, the compound 1 ascorbate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 265. In some embodiments, the compound 1 ascorbate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 157° C. In some embodiments, the compound 1 ascorbate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 266.

In some embodiments, the compound 1 salt is a sulfate salt. In some embodiments, the sulfate salt is a crystalline sulfate salt.

In some embodiments, the compound 1 salt is a mesylate salt. In some embodiments, the mesylate salt is a crystalline mesylate salt.

In some embodiments, the compound 1 salt is an esylate salt. In some embodiments, the esylate salt is a crystalline esylate salt.

In some embodiments, the compound 1 salt is a phosphate salt. In some embodiments, the phosphate salt is a crystalline phosphate salt.

In some embodiments, the compound 1 salt is an edisylate salt. In some embodiments, the edisylate salt is a crystalline edisylate salt. In some embodiments, the compound 1 salt is a fumarate salt that is a crystalline polymorphic form characterized by XRPD signals at 14.0°2θ, 15.9°2θ, and 22.3°2θ (10.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorphic form characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorphic form characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8 °2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorphic form characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1 °2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorphic form characterized by any combination of the XRPD signals in Table 6. In some embodiments, the compound 1 fumarate salt is a crystalline polymorphic form characterized by the XRPD signals in Table 6 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is a crystalline polymorphic form characterized by an XRPD pattern substantially similar to that shown in FIG. 8. In some embodiments, the compound 1 fumarate salt is a crystalline polymorphic form characterized by a DSC diagram having melting signals at about 116.8° C. and 241.3° C. In some embodiments, the compound 1 fumarate salt is a crystalline polymorphic form characterized by a DSC profile substantially similar to that shown in FIG. 86. In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 210.71° C. In some embodiments, the compound 1 fumarate salt is a crystalline polymorph characterized by a TGA diagram substantially similar to that shown in FIG. 81.

In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 18.2°2θ, 25.0°2θ, and 26.0°2θ (102°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 12.9°2θ, 18.2°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 17.8°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.1°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 27.6°2θ, 28.6°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 124. In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 365.

In some embodiments, the compound 1 salt is an adipate salt. In some embodiments, the adipate salt is a crystalline adipate salt.

In some embodiments, the present disclosure provides a pharmaceutical composition comprising any of the compound 1 salts disclosed herein and a pharmaceutically acceptable excipient.

In some embodiments, the present disclosure provides method of treating a brain disorder, a neurological disorder and/or a psychiatric disorder in a subject in need, comprising administering to the subject any of the compound 1 salts disclosed herein or any of the pharmaceutical compositions disclosed herein.

The foregoing and other objects, features, and advantages of the invention will become more apparent from the following detailed description, which proceeds with reference to the accompanying figures.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 provides an XRPD diffractogram of crystalline Compound 1 fumarate, pattern 5, isolated from MIBK according to Example 4 overlaid with an XRPD diffractogram for the amorphous fumarate salt. XRPD signals observed in the pattern 5 diffractogram are characterized in Table 38.

FIG. 2 provides an ¹H NMR spectrum for the Compound 1⋅-fumarate, pattern 5, crystalline form produced according to Example 4.

FIG. 3 provides an ¹H NMR spectrum for crystalline compound 1 hemifumarate Form I/Pattern 2.

FIG. 4 provides an XRPD diffractogram for crystalline Compound 1 ⋅hemifumarate Form Pattern 2. XRPD signals observed in this diffractogram are characterized in Table 33.

FIG. 5 provides an XRPD diffractogram for a sample produced according to Example 5 comprising crystalline Compound 1 ⋅monofumarate Form B/Pattern 3b. XRPD signals observed in this diffractogram are characterized in Table 32.

FIG. 6 provides an XRPD diffractogram for a sample produced according to Example 5 comprising crystalline Compound 1 ⋅monofumarate Pattern 1. XRPD signals observed in this diffractogram are characterized in Table 5.

FIG. 7 provides an XRPD diffractogram for a sample comprising crystalline Compound 1 ⋅hemifumarate Form II/Pattern 4. XRPD signals observed in this diffractogram are characterized in Table 35.

FIG. 8 provides an XRPD diffractogram for a sample comprising crystalline Compound 1 monofumarate Pattern 1. XRPD signals observed in this diffractogram are characterized in Table 6.

FIG. 9 shows the chemical structure of compound 1

FIG. 10 shows the overlay of XRPD profiles of amorphous compound 1 (top) and the compound 1 crystalline Pattern 5 fumarate salt, which was crystalized from amorphous compound 1 in MIBK.

FIG. 11 shows the DVS isotherm plot of amorphous compound 1, obtained with 0% to 90% to 0% RH vs. time. Fixed time of 60 min between % RH steps, 27 h for 1 cycle.

FIG. 12 shows the mass equilibrated DVS isotherm plot of the compound 1 crystalline Form A monofumarate salt. Mass equilibrated dm/dt 0.0002% in between % RH steps.

FIG. 13 shows a chemical scheme for re-proportionation of compound 1 fumarate.

FIG. 14 shows the overlaid XRPD profiles of amorphous compound 1 (top), crystalline fumaric acid (second from top), crystalline compound 1 hemi-fumarate Form II/Pattern 4, and crystalline compound 1 monofumarate Form A, which was measured at the 72-hour timepoint of the competitive re-proportionation experiment described in Example 7.

FIG. 15 shows the overlaid XRPD profiles for the crystalline compound 1 monofumarate Form A measured at the 72-hour timepoint of the competitive re-proportionation experiment described in Example 7 and a reference sample of crystalline compound 1 monofumarate Form A.

FIG. 16 shows the overlaid XRPD profiles of wet (top) and dried (bottom) crystalline compound 1 monofumarate Form A, isolated from MEK:heptane 1:1.

FIG. 17 shows the overlaid XRPD profiles of wet (top) and dried (bottom) crystalline compound 1 monofumarate Form A, isolated from tBME.

FIG. 18 shows the overlaid XRPD profiles of wet (top) and dried (bottom) crystalline compound 1 monofumarate Form A, isolated from iPAc.

FIG. 19 shows the overlaid XRPD profiles of wet (top) and dried (bottom) crystalline compound 1 monofumarate Form A, isolated from toluene.

FIG. 20 shows DSC thermograms of samples of compound 1 fumarate before and after neat grinding (NG) and liquid assisted grinding (LAG) conditions. NG and LAG of amorphous compound 1 both resulted in the formation of crystalline compound 1 monofumarate Form A.

FIG. 21 shows XRPD profiles of samples of compound 1 fumarate before and after neat grinding (NG) and liquid assisted grinding (LAG) conditions. NG and LAG of amorphous compound 1 both resulted in the formation of crystalline compound 1 monofumarate Form A.

FIG. 22 shows an illustration of the vapor diffusion experiment apparatus set up.

FIG. 23 shows the XRPD diffractogram overlay of crystalline compound 1 monofumarate Form A prior to treatment with water, as described in the in-situ hydration experiments in Example 7, (bottom), the resultant material at 9 minutes (second from bottom), the resultant material at 18 minutes (second from top), and the resultant material at 27 minutes (top).

FIG. 24 shows the XRPD diffractogram overlay of crystalline compound 1 monofumarate Form A produced by suspension equilibrium in MEK at 20° C. (top) and a reference sample of crystalline compound 1 monofumarate Form A (bottom).

FIG. 25 shows the XRPD diffractogram overlay of crystalline compound 1 monofumarate Form A produced by suspension equilibrium in tBME at 20° C. for 4 days (top) and a reference sample of crystalline compound 1 monofumarate Form A (bottom).

FIG. 26 shows the XRPD diffractogram overlay of crystalline compound 1 monofumarate Form A produced by stirring in tBME at 20° C. for 18 hours (top) and a reference sample of crystalline compound 1 fumarate Form A (bottom).

FIG. 27 shows the XRPD diffractogram overlay of crystalline compound 1 monofumarate Form A produced by dissolving amorphous compound 1 in methanol followed by charging with tBME as anti-solvent (top) and a reference sample of crystalline compound 1 fumarate Form A (bottom).

FIG. 28 shows the single-crystal structure of crystalline compound 1 monofumarate Form A.

FIG. 29 shows the packing of the crystal lattice of crystalline compound 1 monofumarate Form A.

FIG. 30 shows the ¹H NMR spectrum of amorphous compound 1 ⋅Fumarate. The spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. API to Fumaric acid, 1.0 to 1.0.

FIG. 31 shows the XRPD profile of amorphous compound 1.

FIG. 32 shows the TGA thermogram of amorphous compound 1, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 33 shows the DSC profile of amorphous compound 1, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 34 is an image of a sample of amorphous compound 1, normal polarized (magnification ×2).

FIG. 35 is an image of a sample of amorphous compound 1, cross polarized (magnification ×2).

FIG. 36 is an image of a sample of amorphous compound 1 (magnification ×50, wide field) FIG. 37 is an image of a sample of amorphous compound 1 (magnification ×100, res.).

FIG. 38 is an image of a sample of amorphous compound 1 (magnification ×250, res.).

FIG. 39 shows a ¹H NMR spectrum of crystalline compound 1 fumarate, spectrum was acquired in DMSO-d₆, and calibrated to the non-deuterated solvent residual at 2.50 ppm. API to Fumaric acid, 1.0 to 1.0. MIBK content, 11.0% w/w.

FIG. 40 shows a TGA profile of crystalline compound 1 fumarate.

FIG. 41 shows an ¹H NMR spectrum of amorphous compound 1 fumarate (t=5 w, open vial), spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm.

FIG. 42 shows an ¹H NMR spectrum of amorphous compound 1 fumarate (t=5 w, open vial), spectrum was acquired in DMSO-d₆, and calibrated to the non-deuterated solvent residual at 2.50 ppm.

FIG. 43 shows the HPLC profile of amorphous compound 1 fumarate after being stored in a wide-necked, open vial for two weeks at 75% RH at 40° C.

FIG. 44 shows the HPLC profile of amorphous compound 1 fumarate after being stored in a wide-necked, open vial for three weeks at 75% RH at 40° C.

FIG. 45 shows the HPLC profile of amorphous compound 1 fumarate after being stored in a wide-necked, open vial for four weeks at 75% RH at 40° C.

FIG. 46 shows the HPLC profile of amorphous compound 1 fumarate after being stored in a wide-necked, open vial for five weeks at 75% RH at 40° C.

FIG. 47 shows the HPLC profile of amorphous compound 1 fumarate after being stored in a wide-necked, open vial and then inside double polyethlene bags, tied tightly with cable ties for two weeks at 75% RH at 40° C.

FIG. 48 shows the HPLC profile of amorphous compound 1 fumarate after being stored in a wide-necked, open vial and then inside double polyethlene bags, tied tightly with cable ties for three weeks at 75% RH at 40° C.

FIG. 49 shows the HPLC profile of amorphous compound 1 fumarate after being stored in a wide-necked, open vial and then inside double polyethlene bags, tied tightly with cable ties for four weeks at 75% RH at 40° C.

FIG. 50 shows the HPLC profile of amorphous compound 1 fumarate (t=5 w).

FIG. 51 shows DVS data for amorphous compound 1 fumarate.

FIG. 52 shows a XPRD profile of crystalline compound 1 monofumarate Form A post-DVS.

FIG. 53 shows an overlay of the XRPD profile of amorphous compound 1 pre-DVS analysis (top) and crystalline compound monofumarate Form A measured after the DVS-analysis (bottom).

FIG. 54 shows a XRPD profile of crystalline compound 1 monofumarate Form A obtained post-DVS analysis.

FIG. 55 shows an overlay of the XRPD profile of crystalline compound 1 monofumarate Form A obtained pre-DVS analysis (top) and post-DVS analysis (bottom).

FIG. 56 shows a ¹H NMR spectrum of crystalline compound 1 hemi-fumarate Form II (preparation of hemifumarate in methanol), spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. API to Fumaric acid, 2.0 to 1.0.

FIG. 57 shows a ¹H NMR spectrum of crystalline compound 1 hemi-fumarate Form II (oven-dried after equilibration), spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. API to Fumaric acid. 2.0 to 1.0.

FIG. 58 shows a XRPD profile of crystalline compound 1 hemi-fumarate Form I (wet pellet).

FIG. 59 shows a TGA thermogram of crystalline compound 1 hemi-fumarate Form II, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 60 shows a DSC profile of crystalline compound 1 hemi-fumarate Form II, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 61 shows a XRPD profile of crystalline compound 1 monofumarate Form A (wet pellet, Pattern #1, Form A).

FIG. 62 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate pattern #3b, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. API to Fumaric acid, 1.0 to 1.0. tBME content, 0.1% w/w.

FIG. 63 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate Form A, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. API to Fumaric acid, 1.0 to 1.0. EtOAc content, 0.1% w/w.

FIG. 64 shows a ¹H NMR spectrum of crystalline compound 1 fumarate Form A, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. API to Fumaric acid, 1.0 to 1.0. IPAc content, 0.5% w/w.

FIG. 65 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate Form A, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. API to Fumaric acid, 1.0 to 1.0. MEK content, 0.2% w/w.

FIG. 66 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate Form A, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. API to Fumaric acid, 1.0 to 1.0. MEK content, 0.2% w/w.

FIG. 67 shows a XRPD profile of crystalline compound 1 monofumarate Form B (wet pellet, Pattern #3b).

FIG. 68 shows a XRPD profile of crystalline compound 1 fumarate Pattern #3a (wet pellet, Pattern #3a) FIG. 69 shows a XRPD profile of crystalline compound 1 monofumarate Form A (oven dried, Pattern #1).

FIG. 70 shows a XRPD profile of crystalline compound 1 (wet pellet, Pattern #3a) FIG. 71 shows a XRPD profile of crystalline compound 1 fumarate pattern 6 (wet pellet, Pattern #6).

FIG. 72 shows XRPD profile of crystalline compound monofumarate Form A (wet pellet, Pattern #1, Form A.

FIG. 73 shows a XRPD profile of crystalline compound 1 monofumarate Form A (wet pellet, Pattern #1, Form A).

FIG. 74 shows a XRPD profile of crystalline compound 1 monofumarate Form A (wet pellet, Pattern #1, Form A).

FIG. 75 shows a XRPD profile of crystalline compound 1 monofumarate Form A (oven dried).

FIG. 76 shows a XRPD profile of crystalline compound 1 monofumarate Form A (wet pellet).

FIG. 77 shows a XRPD profile of crystalline compound 1 monofumarate Form A (oven dried).

FIG. 78 shows a TGA thermogram of crystalline compound 1 monofumarate Form B, Pattern 3b, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 79 shows a TGA thermogram of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 80 shows a TGA thermogram of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 81 shows a TGA thermogram of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 82 shows a TGA thermogram of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 83 shows a DSC profile of compound 1 monofumarate Form B, pattern 3b, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 84 shows a DSC profile of 8 crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 85 shows a DSC profile of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 86 shows a DSC profile of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 87 shows a DSC profile of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 88 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate Form A, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. MEK content, 3.3% w/w.

FIG. 89 shows ¹H NMR spectrum of crystalline compound 1 monofumarate Form A, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. tBME content, 0.2% w/w.

FIG. 90 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate Form A, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. iPAc content, 1.3% w/w.

FIG. 91 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate Form A, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. iPAc content, 1.3% w/w.

FIG. 92 shows a XRPD profile of crystalline compound 1 monofumarate Form A (Pattern #1, Form A)

FIG. 93 shows a XRPD profile of crystalline compound 1 monofumarate Form A

FIG. 94 shows a XRPD profile of crystalline compound 1 monofumarate Form A (Pattern #1, Form A)

FIG. 95 shows a XRPD profile of crystalline compound 1 monofumarate Form A (Pattern #1, Form A) FIG. 96 shows a TGA thermogram of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 97 shows a TGA thermogram of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10′C/minute.

FIG. 98 TGA thermogram of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 99 shows a DSC profile of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 100 shows a DSC profile of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 101 shows a DSC profile of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 102 shows a DSC profile of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 103 shows a XRPD profile of crystalline compound 1 monofumarate Form A.

FIG. 104 shows a XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A) FIG. 105 shows a XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A) FIG. 106 shows a DSC profile of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 107 shows a DSC profile of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 108 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. MEK and tBME n.d.

FIG. 109 shows a XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A)

FIG. 110 shows a XRPD profile of crystalline compound 1 monofumarate (Pattern #1)

FIG. 111 shows a TGA thermogram of crystalline compound monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 112 shows a DSC profile of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 113 shows a magnified image of crystalline compound 1 monofumarate, normal polarised (magnification ×2).

FIG. 114 shows a magnified image of crystalline compound 1 monofumarate, normal polarised (magnification ×5).

FIG. 115 crystalline compound 1 monofumarate, normal polarized (magnification ×25).

FIG. 116 shows the result of vapor diffusion experiment in MEK with tBME as diffusant solvent (t=92 h)

FIG. 117 shows the results of vapor diffusion experiment with butanol as solvent and heptane as diffusion solvent (t=92 h).

FIG. 118 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. Acetone content, 0.3% w/w.

FIG. 119 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. MeCN content, 0.1% w/w.

FIG. 120 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. DCM content, 0.9% w/w.

FIG. 121 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. IPA content, 0.2% w/w.

FIG. 122 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. MEK content, 2.3% w/w.

FIG. 123 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. 2 MeTHF content, 0.2% w/w.

FIG. 124 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. n-Butanol content, 0.5% w/w.

FIG. 125 shows a ¹H NMR spectrum of crystalline compound 1 fumarate, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. MIBK content, 0.3% w/w.

FIG. 126 shows a XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A).

FIG. 127 shows a XRPD profile of crystalline compound 1 monofumarate fumarate (Pattern #1, Form A).

FIG. 128 shows a XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A).

FIG. 129 shows a XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A).

FIG. 130 shows a XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A).

FIG. 131 shows an XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A).

FIG. 132 shows an XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A).

FIG. 133 shows an XRPD profile of crystalline compound 1 monofumarate (Pattern #1, Form A).

FIG. 134 shows a TGA thermogram of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 135 shows a TGA thermogram of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 136 shows a TGA thermogram of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 137 shows a TGA thermogram of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 138 shows a TGA thermogram of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 139 shows a TGA thermogram of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 140 shows a TGA thermogram of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 141 shows a DSC profile of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 142 shows a DSC profile of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 143 shows a DSC profile of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 144 shows a DSC profile of crystalline compound 1 monofumarate, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 145 shows an image of an experiment in which crystalline compound 1 monofumarate Form A was obtained by way of evaporation from acetone.

FIG. 146 shows an image of an experiment in which crystalline compound 1 monofumarate Form A was obtained by way of evaporation from MeCN.

FIG. 147 shows an image of an experiment in which crystalline compound 1 monofumarate Form A was obtained by way of evaporation from IPA.

FIG. 148 shows an image of an experiment in which crystalline compound 1 monofumarate Form A was obtained by way of evaporation from MEK.

FIG. 149 shows an image of an experiment in which crystalline compound 1 monofumarate Form A was obtained by way of evaporation from 2-MeTHF.

FIG. 150 shows an image of an experiment in which crystalline compound 1 monofumarate Form A was obtained by way of evaporation from BuOH.

FIG. 151 shows an image of an experiment in which small solids were obtained by way of evaporation from dioxane.

FIG. 152 shows a XRPD profile of crystalline compound 1 monofumarate Form A prior to treatment with water.

FIG. 153 shows a XRPD profile of material that resulted from the treatment of crystalline compound 1 monofumarate form A with water, 9 minutes after treating the Form A with water.

FIG. 154 shows a XRPD profile of material that resulted from the treatment of crystalline compound 1 monofumarate form A with water, 18 minutes after treating the Form A with water.

FIG. 155 shows a XRPD profile of material that resulted from the treatment of crystalline compound 1 monofumarate Form A with water, 27 minutes after treating the Form A with water.

FIG. 156 shows a ¹H NMR spectrum of crystalline compound 1 monofumarate Form A, spectrum was acquired in DMSO-d₆ and calibrated to the non-deuterated solvent residual at 2.50 ppm. MEK n.d.

FIG. 157 shows a XRPD profile of crystalline compound 1 monofumarate Form A

FIG. 158 shows a TGA thermogram of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 159 shows a DSC profile of crystalline compound 1 monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 160 shows a HPLC profile of crystalline compound 1 monofumarate Form A.

FIG. 161 shows an image of crystalline compound 1 monofumarate Form A, normal polarised (magnification ×2).

FIG. 162 shows an image of crystalline compound 1 monofumarate Form A, normal polarised (magnification ×5).

FIG. 163 shows an image of crystalline compound 1 monofumarate Form A, cross polarised (magnification ×2).

FIG. 164 shows an image of crystalline compound 1 monofumarate Form A, cross polarised (magnification ×5).

FIG. 165 is a series of images of a single crystal of crystalline compound 1 monofumarate salt Form A on a diffractometer

FIG. 166 is a series of precession images generated from a single crystal of crystalline compound 1 monofumarate salt Form A

FIG. 167 shows an XRPD diffractogram of compound 1 ⋅hydrochloride, Form A. XRPD signals shown in this diffractogram are characterized in Table 41.

FIG. 168 shows an XRPD diffractogram of compound 1 ⋅maleate. XRPD signals shown in this diffractogram are characterized in Table 44.

FIG. 169 shows XRPD diffractogram of compound 1 ⋅benzoate. XRPD signals shown in this diffractogram are characterized in Table 46.

FIG. 170 shows XRPD diffractogram of compound 1 ⋅tosylate. XRPD signals shown in this diffractogram are characterized in Table 113.

FIG. 171 shows XRPD diffractogram of compound 1 tartrate. XRPD signals shown in this diffractogram are characterized in Table 47.

FIG. 172 shows XRPD diffractogram of compound 1 ⋅hydrobromide. XRPD signals shown in this diffractogram are characterized in Table 48.

FIG. 173 shows XRPD diffractogram of compound 1 ⋅galactarate. XRPD signals shown in this diffractogram are characterized in Table 49.

FIG. 174 shows XRPD diffractogram of compound 1 ⋅succinate. XRPD signals shown in this diffractogram are characterized in Table 50.

FIG. 175 shows a graphic describing the work performed during the salt screen.

FIG. 176 shows the DSC profile of crystalline compound 1 maleate salt, thermocycle reprocessed

FIG. 177 shows the DSC profile of crystalline compound 1 maleate, thermocycle slow cool

FIG. 178 shows DSC profile of crystalline compound 1 maleate, thermocycle slow cool time

FIG. 179 shows a ¹H NMR spectrum overlay of two preparations of crystalline compound 1 HCl.

FIG. 180 shows a DSC thermogram overlay of two preparations of crystalline compound 1 HCl.

FIG. 181 shows TGA thermogram overlay of two preparations of crystalline compound 1 HCl.

FIG. 182 shows a XRPD diffractogram overlay of two preparations of crystalline compound 1 HCl.

FIG. 183 shows a ¹H NMR spectra overlay of crystalline compound 1 benzoate (top), dry pellet at T=24 h API/benzoic acid 1/16 (middle) and amorphous compound 1 (bottom).

FIG. 184 shows overlaid XRPD profiles of crystalline compound 1 benzoate (bottom), a sample of crystalline compound 1 benzoate that was isolated from FaSSGF buffer (pH 1.6) at t=1 h and not dried, (second from bottom), a sample of crystalline compound 1 benzoate that was isolated from FaSSGF buffer (pH 1.6) at t=1 h and dried (third from bottom), a sample of crystalline compound 1 benzoate that was isolated from FaSSGF buffer (pH 1.6) at t=3 h and not dried (fourth from bottom), a sample of crystalline compound 1 benzoate that was isolated from a FaSSGF buffer (pH 1.6) at t=3 h and dried (fifth from bottom), a sample of crystalline compound 1 benzoate that was isolated from a FaSSGF buffer (pH 1.6) at t=24 h and not dried (third from top), a sample of crystalline compound 1 benzoate that was isolated from FaSSGF buffer (pH 1.6) at t=24 h and dried (second from top) and crystalline benzoic acid (top).

FIG. 185 shows ¹H NMR spectrum of compound 1 free base.

FIG. 186 shows a Q ¹H NMR assay spectrum of compound 1 free base.

FIG. 187 shows LC-MS profile of compound 1 free base.

FIG. 188 shows PLM of compound 1 free base (5× magnification)

FIG. 189 shows ¹H NMR spectrum of crystalline compound 1 HCl Form A in DMSO-d₆ as deuterated solvent.

FIG. 190 shows a DSC profile of crystalline compound 1 HCl Form A.

FIG. 191 shows a DVS isotherm plot of compound 1 HCl Form A.

FIG. 192 shows a PLM of crystalline compound 1 HCl Form A salt ×2 mag, no polarizers (NP).

FIG. 193 shows a PLM of crystalline compound 1 HCl Form A ×5 mag, NP.

FIG. 194 shows a HPLC profile of crystalline compound 1 ⋅HCl Form A.

FIG. 195 shows a TGA profile of crystalline compound 1-HCl Form A.

FIG. 196 shows a XRPD profile of crystalline compound 1 HCl Form A.

FIG. 197 shows overlaid of XRPD profiles of two preparations of crystalline compound 1 HCl.

FIG. 198 shows ¹H NMR spectrum of crystalline compound 1 maleate.

FIG. 199 shows DSC profile of crystalline compound 1 maleate.

FIG. 200 shows DVS isotherm plot of crystalline compound 1 maleate.

FIG. 201 shows PLM of crystalline compound 1 maleate ×2 mag, NP.

FIG. 202 shows PLM of crystalline compound 1 maleate ×5 mag, NP.

FIG. 203 shows HPLC profile of crystalline compound 1 maleate.

FIG. 204 shows TGA profile of crystalline compound 1 maleate

FIG. 205 shows XRPD profile of crystalline compound 1 maleate.

FIG. 206 shows overlaid XRPD profiles of two preparations of crystalline compound 1 maleate.

FIG. 207 shows ¹H NMR spectrum of crystalline compound 1 benzoate.

FIG. 208 shows DSC profile of crystalline compound 1 benzoate.

FIG. 209 shows DVS isotherm plot of crystalline compound 1 benzoate.

FIG. 210 shows PLM of crystalline compound 1 benzoate ×2 mag, no polarizers (NP).

FIG. 211 shows PLM of crystalline compound 1 benzoate ×5 mag, NP

FIG. 212 shows HPLC profile of crystalline compound 1 benzoate

FIG. 213 shows TGA profile of crystalline compound 1 benzoate.

FIG. 214 shows XRPD profile of crystalline compound 1 benzoate.

FIG. 215 shows overlaid of XRPD profiles of two preparations of crystalline compound 1 benzoate.

FIG. 216 shows Overlaid of ¹H NMR spectra of crystalline compound 1 HCl (top, red) and amorphous compound 1 ⋅(bottom).

FIG. 217 shows a DSC profile of crystalline compound 1 HCl Form A.

FIG. 218 shows a TGA profile of crystalline compound 1 HCl Form A.

FIG. 219 shows overlaid ¹H NMR spectra of two samples of crystalline compound 1 HCl Form A.

FIG. 220 shows XRPD profile of crystalline compound 1 HCl Form A.

FIG. 221 shows DSC profile of crystalline compound 1 HCl Form A.

FIG. 222 shows TGA profile of crystalline compound 1 HCl Form A.

FIG. 223 shows Overlaid of ¹H NMR spectra of crystalline compound 1 maleate (top) and amorphous compound 1 (bottom).

FIG. 224 shows Overlaid of XRPD profiles of crystalline compound 1 maleate (top) and maleic acid, non-ionise (bottom).

FIG. 225 shows DSC profile of crystalline compound 1 maleate.

FIG. 226 shows DSC thermocycle profile of crystalline compound 1 maleate.

FIG. 227 shows TGA profile of crystalline compound 1 maleate.

FIG. 228 shows Overlaid of ¹H NMR spectra of crystalline compound 1 benzoate (top) and amorphous compound 1 (bottom).

FIG. 229 shows overlaid XRPD profiles of crystalline compound 1 benzoate and benzoic acid, non-ionized (bottom).

FIG. 230 shows a DSC profile of crystalline compound 1 benzoate.

FIG. 231 shows a TGA profile of crystalline compound 1 benzoate FIG. 232 shows overlaid of NMR spectra of crystalline compound 1 tosylate (top) and amorphous compound 1.

FIG. 233 shows overlaid XRPD profiles of crystalline compound 1 tosylate (top) and 4-toluene sulfonic acid, non-ionized.

FIG. 234 shows a DSC profile of crystalline compound 1 tosylate.

FIG. 235 shows a TGA profile of crystalline compound 1 tosylate.

FIG. 236 shows Overlaid of ¹H NMR spectra of crystalline compound 1 tartrate (top) and amorphous compound 1.

FIG. 237 shows Overlaid of XRPD profiles of crystalline compound 1 tartrate (top) and tartaric acid, non-ionized.

FIG. 238 shows a DSC profile of crystalline compound 1 tartrate.

FIG. 239 shows a TGA profile of crystalline compound 1 tartrate.

FIG. 240 shows overlaid of ¹H NMR spectra of crystalline compound 1 HBr (top) and amorphous compound 1 (bottom).

FIG. 241 shows a DSC profile of crystalline compound 1 HBr.

FIG. 242 shows a TGA profile of crystalline compound 1 HBr.

FIG. 243 shows overlaid ¹H NMR spectra of crystalline compound 1 galactarate (top) and amorphous compound 1.

FIG. 244 shows overlaid of XRPD profiles of crystalline compound 1 galactarate top) and galactaric acid, non-ionized.

FIG. 245 shows a DSC profile of crystalline compound 1 Galactarate

FIG. 246 shows overlaid ¹H NMR spectra of crystalline compound 1 Succinate and amorphous compound 1.

FIG. 247 shows overlaid XRPD profiles of crystalline compound 1 Succinate (top) and succinic acid, non-ionized (bottom).

FIG. 248 shows a DSC profile of crystalline compound 1 Succinate.

FIG. 249 shows an XRPD profile of crystalline compound 1 Sulfate.

FIG. 250 shows a DSC profile of crystalline compound 1 Sulfate.

FIG. 251 shows a TGA profile of crystalline compound 1 Sulfate.

FIG. 252 shows an XRPD profile of compound 1 Esylate. Insufficient sample was gathered for further analyses

FIG. 253 shows an XRPD profile of compound 1 Mesylate.

FIG. 254 shows a DSC profile of compound 1 Methanesulfonate.

FIG. 255 shows a DSC profile of compound 1 Methanesulfonate.

FIG. 256 shows an XRPD profile of compound 1 ⋅Phosphate.

FIG. 257 shows an XRPD profile of crystalline compound 1 Citrate. Arrows designate presence of non-ionized citric acid

FIG. 258 shows a DSC profile of compound 1 Citrate.

FIG. 259 shows a XRPD profile of crystalline compound 1 Glucuronate. Arrows designate presence of non-ionized glucuronic acid.

FIG. 260 shows a DSC profile of compound 1 Glucuronate.

FIG. 261 shows an XRPD profile of crystalline compound 1 Malate. Arrows designate presence of non-ionized malic acid.

FIG. 262 shows a DSC profile of compound 1 Malate.

FIG. 263 shows an XRPD profile of compound 1 Gluconate.

FIG. 264 shows a DSC profile of compound 1 Gluconate.

FIG. 265 shows an XRPD profile of crystalline compound 1 Ascorbate. Blue arrows aligned with presence of non-ionized ascorbic acid.

FIG. 266 shows a DSC profile of crystalline compound 1 Ascorbate.

FIG. 267 shows an XRPD profile of compound 1 EDSA.

FIG. 268 shows an XRPD profile of compound 1 Adipate.

FIG. 269 shows an overlay of XRPD profiles of crystalline compound 1 monofumarate Form A after storage for 0 days (top), 10 days (middle) and 5 days (bottom) at 40° C./75% RH.

FIG. 270 shows an overlay of XRPD profiles of crystalline compound 1 HCl Form A after storage for 0 days (top), 10 days (middle) and 5 days (bottom) at 40° C./75% RH.

FIG. 271 shows an overlay of XRPD profiles of crystalline compound 1 Maleate after storage for T=0 days (top), T=10 days (middle) and T=5 days (bottom) at 40° C./75% RH.

FIG. 272 shows an overlay of XRPD profiles of crystalline compound 1 Benzoate after storage for 0 days (bottom), 10 days (top) and 5 days (middle) at 40° C./75% RH.

FIG. 273 shows an overlay of ¹H NMR spectra of crystalline compound 1 monofumarate after storage for 0 days (bottom), 10 days (top) and 5 days (middle) at 40° C./75% RH. DMSO-d₆ was used as deuterated solvent.

FIG. 274 shows an overlay of ¹H NMR spectra of crystalline compound 1 HCl Form A after storage for 0 days (bottom, 0.02% w/w EtOH), 10 days (top) and 5 days (middle) at 40° C./75% RH. DMSO-d₆ was used as deuterated solvent.

FIG. 275 shows an overlay of ¹H NMR spectra of crystalline compound 1 Maleate after storage for 0 days (bottom), 10 days (top) and 5 days (middle) at 40° C./75% RH. DMSO-d₆ was used as deuterated solvent

FIG. 276 shows an overlay of ¹H NMR spectra of crystalline compound 1 Benzoate after storage for 0 days (bottom), 10 days (top) and 5 days (middle) at 40° C./75% RH.

FIG. 277 shows DSC profiles of crystalline compound 1 monofumarate Form A at 5 (left) and 10 (right) days in storage at 40° C./75% RH.

FIG. 278 shows an overlay of DSC profiles of a reference sample of crystalline compound 1 monofumarate Form A (top), a sample of crystalline compound 1 monofumarate after storage for 5 days at 40° C./75% RH (middle) and a sample of crystalline compound 1 monofumarate for 10 days at 40° C./75% RH (bottom).

FIG. 279 shows DSC profiles of crystalline compound 1 HCl Form A at 5 (left) and 10 (right) days in storage at 40° C./75% RH.

FIG. 280 shows overlaid DSC profiles of a reference sample of crystalline compound 1 HCl Form A (middle), a sample of crystalline compound 1 HCl Form A after storage for 5 days at 40° C./75% RH (bottom) and a sample of crystalline compound 1 HCl Form A for 10 days at 40° C./75% RH (top).

FIG. 281 shows DSC profiles of crystalline compound 1 maleate at 5 (left) and 10 (right) days in storage at 40° C./75% RH.

FIG. 282 shows an overlay of DSC profiles of a reference sample of crystalline compound 1 maleate (bottom), a sample of crystalline compound 1 maleate after storage for 5 days at 40° C./75% RH (middle) and a sample of crystalline compound 1 maleate for 10 days at 40° C./75% RH (top).

FIG. 283 shows DSC profiles of crystalline compound 1 benzoate at 5 (left) and 10 (right) days in storage at 40° C./75% RH.

FIG. 284 shows an overlay of DSC profiles of a reference sample of crystalline compound 1 benzoate (middle), a sample of crystalline compound 1 benzoate after storage for 5 days at 40° C./75% RH (bottom) and a sample of crystalline compound 1 benzoate for 10 days at 40° C./75% RH (top).

FIG. 285 shows TGA profiles of crystalline compound 1 monofumarate Form A at 5 (left) and 10 (right) days in storage at 40° C./75% RH.

FIG. 286 shows an overlay of TGA profiles of a reference sample of crystalline compound 1 fumarate Form A (top), a sample of crystalline compound 1 monofumarate Form A after storage for 5 days at 40° C./75% RH (middle) and a sample of crystalline compound 1 monofumarate Form A for 10 days at 40° C./75°% RH (bottom).

FIG. 287 shows TGA profiles of crystalline compound 1 HCl Form A at 5 (left) and 10 (right) days in storage at 40° C./75% RH.

FIG. 288 shows an overlay of TGA profiles of a reference sample of crystalline compound 1 HCl Form A (top), a sample of crystalline compound 1 HCl Form A after storage for 5 days at 40° C./75% RH (middle) and a sample of crystalline compound 1 HCl Form A for 10 days at 40° C./75% RH (bottom).

FIG. 289 shows TGA profiles of crystalline compound 1 maleate at 5 (left) and 10 (right) days in storage at 40° C./75% RH.

FIG. 290 shows an overlay of TGA profiles of a reference sample of crystalline compound 1 maleate (top), a sample of crystalline compound 1 maleate after storage for 5 days at 40° C./75% RH (middle) and a sample of crystalline compound 1 maleate for 10 days at 40° C./75% RH (bottom).

FIG. 291 shows an overlay of TGA profiles of crystalline compound 1 benzoate at 5 (left) and 10 (right) days in storage at 40° C./75% RH.

FIG. 292 shows an overlay of TGA profiles of a reference sample of crystalline compound 1 benzoate (top), a sample of crystalline compound 1 benzoate after storage for 5 days at 40° C./75% RH (middle) and a sample of crystalline compound 1 benzoate for 10 days at 40° C./75% RH (bottom).

FIG. 293 shows images of various crystalline compound 1 salts at 0, 5 and 10 days at 40° C./75% RH. From left to right, the salts are the crystalline compound 1 monofumarate Form A salt, the crystalline HCl Form A salt, the crystalline maleate salt, and the crystalline benzoate salt.

FIG. 294 shows optical microscopy images of a reference sample of crystalline compound 1 monofumarate Form A (left column), a sample of crystalline compound 1 monofumarate Form A after 5 days at 40° C./75% RH (center column), and a sample of crystalline compound 1 monofumarate Form A after 10 days at 40° C./75% RH.

FIG. 295 shows optical microscopy images of a reference sample of crystalline compound 1 HCl (Form A left column), a sample of crystalline compound 1 HCl Form A after 5 days at 40° C./75% RH (center column), and a sample of crystalline compound 1 HCl Form A 10 days at 40° C./75% RH.

FIG. 296 shows optical microscopy images of a reference sample of crystalline compound 1 maleate (left column), a sample of crystalline compound 1 maleate after 5 days at 40° C./75% RH (center column), and a sample of crystalline compound 1 maleate 10 days at 40° C./75% RH.

FIG. 297 shows optical microscopy images of a reference sample of crystalline compound 1 benzoate (left column), a sample of crystalline compound 1 benzoate after 5 days at 40° C./75% RH (center column), and a sample of crystalline compound 1 benzoate 10 days at 40° C./75% RH.

FIG. 298 shows images of various crystalline compound 1 salts dissolved in SFI buffers. Column A shows crystalline compound 1 monofumarate Form A in FaSSIF buffer (pH 6.5); column B shows crystalline compound 1 HCl Form A in FaSSIF buffer (pH 6.5), column C shows crystalline compound 1 maleate in FaSSIF buffer (pH 6.5), column D shows crystalline compound 1 benzoate in FaSSEF buffer (pH 5.0), column E shows crystalline compound 1 monofumarate Form A in FaSSEF buffer (pH 5.0), column F shows crystalline compound 1 HCl Form A FaSSEF buffer (pH 5.0), column G shows crystalline compound 1 maleate in FaSSEF buffer (pH 5.0), column H shows crystalline compound 1 benzoate Form A in FaSSEF buffer (pH 5.0), column I shows crystalline compound 1 monofumarate Form A in FaSSGF buffer (pH 1.6), column J shows crystalline compound 1 HCl Form A in FaSSGF buffer (pH 1.6), column K shows crystalline compound 1 maleate in FaSSGF buffer (pH 1.6), and column L shows crystalline compound 1 benzoate in FaSSGF buffer (pH 1.6).

FIG. 299 shows XRPD profiles for crystalline compound 1 HCl Form B salt pattern 1 (bottom) and crystalline compound 1 HCL Form A (top).

FIG. 300 shows a DSC profile of crystalline compound 1 HCl Form A obtained when attempting to re-prepare crystalline compound 1 HCl Form B.

FIG. 301 shows a TGA profile of crystalline compound 1 HCl Form A obtained when attempting to re-prepare crystalline compound 1 HCl Form B.

FIG. 302 shows a ¹H NMR of crystalline compound 1 HCl Form A obtained when attempting to re-prepare crystalline compound 1 HCl Form B.

FIG. 303 shows an overlay of the XRPD profiles of a reference sample of crystalline compound 1 HCL Form A (top), a reference sample of crystalline compound 1 HCl Pattern 1 (middle) and Form B obtained by way of controlled heat-up/cool-down in acetonitrile/water (bottom).

FIG. 304 shows a polarized light microscopy image of crystalline compound 1 HCl Form A obtained while attempting to re-prepare crystalline compound 1 HCl Form B.

FIG. 305 shows a DCS profile of a sample of crystalline compound 1 HCl.

FIG. 306 is an overlay of a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetone and water (bottom).

FIG. 307 is an overlay of a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetonitrile and water (bottom).

FIG. 308 is an overlay of a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from THE and water (bottom).

FIG. 309 is an overlay of a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from methanol and water (bottom).

FIG. 310 shows a DSC profile for crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetone and water. The specimen may have contained a small quantity of amorphous material, in the 170° C. region, the split signal is most likely attributed to poor thermal contact within the DSC crucible. DSC analysis was repeated in FIG. 326 and the split signal was absent. Fusion temperatures aligned with Form A.

FIG. 311 shows a DSC profile for crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetonitrile and water. Fusion temperatures aligned with Form A.

FIG. 312 shows a DSC profile for crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetone and water. Fusion temperatures aligned with Form A. Repeat of the experiment shown in FIG. 324, confirmed a single melting event.

FIG. 313 shows a DSC profile for crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from THE and water. Fusion temperatures aligned with Form A.

FIG. 314 shows a DSC profile for crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from methanol and water. Fusion temperatures aligned with Form A.

FIG. 315 shows a TGA profile for crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetone and water.

FIG. 316 shows a TGA profile for crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetone and water.

FIG. 317 shows a TGA profile for crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from THE and water.

FIG. 318 shows a TGA profile for crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from methanol and water.

FIG. 319 shows an overlay of XRPD profiles for a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetone and water.

FIG. 320 shows an overlay of XRPD profiles for a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetone and water.

FIG. 321 shows an overlay of XRPD profiles for a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetone and water.

FIG. 322 shows an overlay of XRPD profiles for a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A obtained by way of binary solvent evaporation crystallization from acetone and water.

FIG. 323 shows a TGA profile of crystalline compound 1 HCl Form A after 10 days in an open-capped vial at 95% RH/20° C.

FIG. 324 shows a TGA profile of crystalline compound 1 HCl Form A after 10 days in an open-capped vial inside double plastic bags at 95°% RH/20° C.

FIG. 325 shows an overlay of NMR spectra of a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A after 10 days in an open-capped vial at 95% RH/20° C. (bottom).

FIG. 326 shows an overlay of NMR spectra of a reference sample of crystalline compound 1 HCl Form A (top) and crystalline compound 1 HCl Form A after 10 days in an open-capped vial inside double plastic bags at 95°i° RH/20° C. (bottom).

FIG. 327 shows an overlay of XRPD profiles of (i) a reference sample of crystalline compound 1 HCl Form A (top), (ii) crystalline compound 1 HCl Form A after 5 days in an open-capped vial at 95% RH/20° C. (second from top), (iii) crystalline compound 1 HCl Form A after 5 days in an open-capped vial inside double plastic bags at 95% RH/20° C. (third from top), (iv) crystalline compound 1 HCl Form A after 10 days in an open-capped vial at 95% RH/20° C., and (v) crystalline compound 1 HCl Form A after 10 days in an open-capped vial inside double plastic bags at 95% RH/20° C.

FIG. 328 shows normal and cross-polarized images of crystalline compound 1 HCl Form A after 10 days in an open-capped vial at 95% RH/20° C. (top row) and crystalline compound 1 HCl Form A after 10 days in an open-capped vial inside double bags at 95% RH/20° C. (bottom row)

FIG. 329 shows an HPLC trace of crystalline compound 1 HCl Form A after 10 days in an open-capped vial at 95% RH/20° C.

FIG. 330 shows an HPLC trace of crystalline compound 1 HCl Form A after 10 days in an open-capped vial inside double bags at 95% RH/20° C.

FIG. 331 shows a DVS isotherm for crystalline compound 1 HCL Form A.

FIG. 332 shows DVS analysis for crystalline compound 1 HCL Form A.

FIG. 333 shows a DSC profile of material obtained by way of liquid assisted grinding with trifluoroethanol as liquid assist.

FIG. 334 shows a DSC profile of material obtained by way of liquid assisted grinding with trifluoroethanol as liquid assist. The fusion temperature remained consistent with crystalline compound 1 HCl Form A.

FIG. 335 shows the structure of crystalline compound 1 HCl Form A solved by single crystal structure determination.

FIG. 336 shows the packed structure of crystalline compound 1 HCl Form A determined by single crystal structure determination.

FIG. 337 shows void analysis of the structure of crystalline compound 1 HCl determined by single crystal structure determination.

FIG. 338 shows the hydrogen bonding network of crystalline compound 1 fumarate Form A determined by single crystal structure determination.

FIG. 339 shows overlaid XRPD profiles of a calculated pattern for crystalline compound 1 fumarate Form A (top) and a reference sample of crystalline compound 1 Form A (bottom).

FIG. 340 shows a DSC profile of crystalline compound 1 fumarate Pattern #2.

FIG. 341 shows a TGA profile of crystalline compound 1 fumarate Pattern #2.

FIG. 342 shows a HPLC profile of amorphous compound 1 fumarate.

FIG. 343 shows an overlay of XRPD profiles of crystalline compound 1 monofumarate Form B (top), crystalline compound 1 Form A monofumarate generated by way of suspension in tBME (middle) and crystalline compound 1 Form A generated by way of suspension in iPAC.

FIG. 344 shows an overlay of XRPD profiles of crystalline compound 1 monofumarate Form B (top), crystalline compound 1 Form A monofumarate generated by way of suspension in tBME (middle) and crystalline compound 1 Form A generated by way of suspension in iPAC.

FIG. 345 shows an overlay of XRPD profiles of crystalline compound 1 monofumarate Form A generated by way of suspension in tBME (top); crystalline compound 1 monofumarate Form A generated by way of suspension in CPA (middle); and crystalline compound 1 monofumarate Form B.

FIG. 346 shows a XRPD profile of crystalline compound 1 monofumarate Form A prepared by suspension in tBME at 20° C.

FIG. 347 shows an overlay of XRPD profiles of a reference sample of crystalline compound 1 monofumarate Form B (top) and a sample of crystalline compound 1 monofumarate Form A prepared by suspension in tBME at 20° C.

FIG. 348 shows a XRPD profile of crystalline compound 1 monofumarate Form A prepared by suspension in tBME at 20° C.

FIG. 349 shows an overlay of XRPD profiles of a reference sample of crystalline compound 1 monofumarate Form B (top) and a sample of crystalline compound 1 monofumarate Form A prepared by suspension in tBME at 20° C.

FIG. 350 shows an XRPD profile of amorphous compound 1 produced by a previously published method.

FIG. 351 shows a XRPD profile of crystalline compound 1 monofumarate Form A produced by a method disclosed herein.

FIG. 352 shows a XRPD profile of crystalline compound 1 monofumarate Form A produced by a method disclosed herein.

FIG. 353 shows a calculated XRPD profile of crystalline compound 1 HCl. XRPD signals observed in this profile are characterized in Table 114.

FIG. 354 shows an overlay of an experimentally observed XRPD profile of a sample of crystalline compound 1 HCl (top) and a calculated XRPD profile of crystalline compound 1 HCl.

FIG. 355 shows a calculated XRPD profile of crystalline compound 1 monofumarate Form A. XRPD signals observed in this profile are characterized in Table 115.

FIG. 356 shows an overlay of an experimentally observed XRPD profile of a sample of crystalline compound 1 monofumarate Form A (top) and a calculated XRPD profile of crystalline compound 1 monofumarate Form A (bottom).

FIG. 357 shows overlay of XRPD profiles crystalline compound 1 HCl Pattern #1 Form B, (top), crystalline compound 1 HCl Form A (second from top), the experimentally obtained sample after drying (third from top), the experimentally obtained sample before drying (second from bottom), and a second experimentally obtained sample.

FIG. 358 shows overlaid ¹H NMR spectra of a reference sample of crystalline compound 1 HCl Form A (bottom) and a sample of crystalline compound 1 Form A that has been pulverized in a liquid assisted grinding experiment.

FIG. 359 shows the DSC profile of the sample of crystalline compound 1 HCl Form A that has been subjected to liquid assisted grinding with trifluoroethanol as the liquid assist and exhibited a probable crystallization event.

FIG. 360 shows a DSC profile of the sample of crystalline compound 1 HCl Form A that had been subjected to liquid assisted grinding with trifluoroethanol as the liquid assist and was measured at an earlier time point in FIG. 359. At the time point the measurement was taken that resulted in FIG. 374, the first endotherm was absent.

FIG. 361 shows overlaid crystalline compound 1 HCl Form A XRPD profiles pre (bottom) and post-DVS analysis (top).

FIG. 362 shows a simulated XRPD pattern of crystalline compound 1 HCl Form A.

FIG. 363 shows overlaid simulated (bottom) and experimentally observed (top) XRPD profiles of crystalline compound 1 HCl Form A. a simulated XRPD pattern of crystalline compound 1 HCl Form A.

FIG. 364 shows overlaid XRPD profiles of simulated powder pattern of Form A, from SCXRD data at T=100(2) K (middle), experimental Form B powder pattern of bulk phase at T=298 K (Form B, Pattern #1 with minor component of Form A, top) and a reference sample of Form A (blue, bottom).

FIG. 365 shows an XRPD profile of crystalline compound 1 HCl Form B.

FIG. 366 shows an XRPD profile of crystalline compound 1 HCl Form B obtained by way of the application of controlled heat-up/cool-down.

FIG. 367 shows a TGA thermogram of crystalline compound monofumarate Form A, analysis was acquired at a ramp rate of +10° C./minute.

FIG. 368 shows a ¹H NMR spectrum of amorphous compound 1 HCl.

FIG. 369 shows an XRPD profile of amorphous compound 1 HCl.

FIG. 370 shows a thermocycle DSC profile of amorphous compound 1 HCl (amorphous compound 1, heat flow vs. time).

FIG. 371 shows a DSC profile of amorphous compound 1 HCl (amorphous compound 1 HCl, 20 to 220° C., heat flow vs. temperature, extracted from FIG. 370), cycle 1/3.

FIG. 372 shows a DSC profile of amorphous compound 1 HCl (amorphous compound 1 HCl, 220 to −20° C., heat flow vs temperature, extracted from FIG. 370), cycle 2/3.

FIG. 373 shows a DSC profile of amorphous compound 1 HCl (amorphous compound 1 HCl −20 to 250° C., heat flow vs temperature, extracted from FIG. 370) Cycle 3/3.

FIG. 374 shows a thermocycle TGA profile of amorphous compound 1 HCl (amorphous compound 1 HCl, mass loss vs time).

FIG. 375 shows a TGA profile of amorphous compound 1 HCl (amorphous compound 1 HCl, 20 to 220° C., heat flow vs temperature, extracted from FIG. 374) Cycle 1/3.

FIG. 376 shows an TGA profile of amorphous compound 1 HCl (amorphous compound 1 HCl, 220 to −20° C., heat flow vs temperature, extracted from FIG. 374) Cycle 2/3.

FIG. 377 shows an TGA profile of amorphous compound 1 HCl (amorphous compound 1 HCl, −20 to 250° C., heat flow vs temperature, extracted) Cycle 3/3.

FIG. 378 shows a LC profile of amorphous compound 1 HCl.

FIG. 379 shows a XRPD profile of amorphous compound 1 monofumarate.

FIG. 380 shows a ¹H NMR spectrum of amorphous compound 1 monofumarate.

FIG. 381 shows a thermocycle DSC profile of amorphous compound 1 monofumarate (amorphous compound 1 monofumarate, heat flow vs time).

FIG. 382 shows a DSC profile of amorphous compound 1 monofumarate (amorphous compound 1 monofumarate, 20 to 145° C., heat flow vs temperature, extracted from FIG. 381) Cycle 1/3.

FIG. 383 shows a DSC profile of amorphous compound 1 monofumarate (amorphous compound 1 monofumarate, 145 to −20° C., heat flow vs temperature, extracted from FIG. 381) Cycle 2/3. FIG. 384 shows a DSC profile of amorphous compound 1 monofumarate (amorphous compound 1 monofumarate, −20 to 230° C., heat flow vs temperature, extracted from FIG. 381) Cycle 3/3.

FIG. 385 shows a thermocycle TGA profile of amorphous compound 1 monofumarate (amorphous compound 1 monofumarate, mass loss vs time).

FIG. 386 shows a TGA profile of amorphous compound 1 monofumarate (amorphous compound 1 monofumarate, 20 to 145° C., heat flow vs temperature, extracted from FIG. 385) Cycle 1/3.

FIG. 387 shows a TGA profile of amorphous compound 1 monofumarate (amorphous compound 1 monofumarate, 145 to −20° C., heat flow vs temperature, extracted from FIG. 385) Cycle 2/3.

FIG. 388 shows a TGA profile of amorphous compound 1 monofumarate (amorphous compound 1 monofumarate, −20 to 230° C., heat flow vs temperature, extracted from FIG. 385) Cycle 3/3.

FIG. 389 shows a LC profile of amorphous compound 1 monofumarate.

FIG. 390 shows a XRPD profile of amorphous compound 1 monofumarate.

FIG. 391 shows a XRPD profile of crystalline compound 1 HCl Form A.

DETAILED DESCRIPTION

I. Definitions

The following explanations of terms and methods are provided to better describe the present disclosure and to guide those of ordinary skill in the art in the practice of the present disclosure. The singular forms “a,” “an,” and “the” refer to one or more than one, unless the context clearly dictates otherwise. The term “or” refers to a single element of stated alternative elements or a combination of two or more elements, unless the context clearly indicates otherwise. As used herein, “comprises” means “includes.” Thus, “comprising A or B,” means “including A, B, or A and B,” without excluding additional elements. All references, including patents and patent applications cited herein, are incorporated by reference in their entirety, unless otherwise specified.

The term “about” is used herein to mean approximately, in the region of, roughly or around. When the term “about” is used in conjunction with a numerical range, it modifies that range by extending the boundaries above and below the numerical values set forth. In general, the term “about” is used herein to modify a numerical value above and below the stated value by a variance of 20%, a variance of 10%, a variance of 5%, a variance of 3%, or a variance of 1%. When used in the context of XRPD signal values, the term “about” can indicate a signal value ±0.20, ±0.15, ±0.10, ±0.05, or ±0.01°2θ. In some embodiments, when used in the context of XRPD signal values “about” can indicate a signal value at substantially exactly the disclosed signal value.

Unless explained otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure pertains. Although methods and materials similar or equivalent to those described herein can be used in the practice or testing of the present disclosure, suitable methods and materials are described below. The materials, methods, and examples are illustrative only and not intended to be limiting.

“Administering” refers to any suitable mode of administration, including, oral administration, administration as a suppository, topical contact, parenteral, intravenous, intraperitoneal, intramuscular, intralesional, intranasal or subcutaneous administration, intrathecal administration, or the implantation of a slow-release device e.g., a mini-osmotic pump, to the subject.

As used herein, the name “(R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine” refers to the compound

which also is referred to herein as “Compound 1.”

As used herein, the name “(R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate” refers to the fumaric acid salt of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-di methylpropan-2-amine

which also is referred to herein as “Compound 1 fumarate.”

As used herein, the name “(R)-1-(5-methoxy-1H-indol-1-yl)-N,N-di methylpropan-2-amine hemifumarate” refers to the hemifumaric acid salt of (R)-1-(5-methoxy-1H-indol-1-yl) N,N-dimethylpropan-2-amine

which also is referred to herein as “Compound 1 ⋅hemifumarate.”

As used herein, other Compound 1 salts are referred to in similar manner as described above. A person of ordinary skill in the art would understand such nomenclature (e.g. Compound 1 HCl, etc.).

As used herein, the term “subject” refers to an animal, such as a mammal, including, but not limited to, primates (e.g., humans), cows, sheep, goats, horses, dogs, cats, rabbits, rats, mice and the like. In certain embodiments, the subject is a human subject.

As used herein, the term “therapeutically effective amount” or “therapeutically sufficient amount” or “effective or sufficient amount” refers to a dose that produces therapeutic effects for which it is administered. The exact dose will depend on the purpose of the treatment, and will be ascertainable by one skilled in the art using known techniques (see, e.g., Lieberman, Pharmaceutical Dosage Forms (vols. 1-3, 1992); Lloyd, The Art, Science and Technology of Pharmaceutical Compounding (1999); Pickar, Dosage Calculations (1999); and Remington: The Science and Practice of Pharmacy, 20th Edition, 2003, Gennaro, Ed., Lippincott, Williams & Wilkins). In sensitized cells, the therapeutically effective dose can often be lower than the conventional therapeutically effective dose for non-sensitized cells.

As used herein, the term “neuronal plasticity” refers to the ability of the brain to change its structure and/or function continuously throughout a subject's life. Examples of the changes to the brain include, but are not limited to, the ability to adapt or respond to internal and/or external stimuli, such as due to an injury, and the ability to produce new neurites, dendritic spines, and synapses.

As used herein, the term “brain disorder” refers to a neurological disorder which affects the brain's structure and function. Brain disorders can include, but are not limited to, Alzheimer's, Parkinson's disease, psychological disorder, depression, treatment resistant depression, addiction, anxiety, post-traumatic stress disorder, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, stroke, traumatic brain injury, and substance use disorder.

As used herein, the term “combination therapy” refers to a method of treating a disease or disorder, wherein two or more different pharmaceutical agents are administered in overlapping regimens so that the subject is simultaneously exposed to both agents. For example, the compounds of the invention can be used in combination with other pharmaceutically active compounds. The compounds of the invention can be administered simultaneously (as a single preparation or separate preparation) or sequentially to the other drug therapy. In general, a combination therapy envisions administration of two or more drugs during a single cycle or course of therapy.

As used herein, the term “neurotrophic factors” refers to a family of soluble peptides or proteins which support the survival, growth, and differentiation of developing and mature neurons.

As used herein, the term “modulate” or “modulating” or “modulation” refers to an increase or decrease in the amount, quality, or effect of a particular activity, function or molecule. By way of illustration and not limitation, agonists, partial agonists, antagonists, and allosteric modulators (e.g., a positive allosteric modulator) of a G protein-coupled receptor (e.g., 5HT_2A) are modulators of the receptor.

As used herein, the terms “powder X-ray diffraction pattern”, “PXRD pattern”, “X-ray powder diffraction pattern”, and “XRPD pattern” are used interchangeably and refer to the experimentally observed diffractogram or parameters derived therefrom. Powder X-ray diffraction patterns are typically characterized by signal position (abscissa) and signal intensities (ordinate). The term “signal intensities” refers to relative signal intensities within a given X-ray diffraction pattern. Factors which can affect the relative signal intensities are sample thickness and preferred orientation (i.e., the crystalline particles are not distributed randomly). The term “signal positions” as used herein refers to X-ray reflection positions as measured and observed in powder X-ray diffraction experiments. Signal positions are directly related to the dimensions of the unit cell. The signals, identified by their respective signal positions, are extracted from the diffraction patterns for the various polymorphic forms of salts of R-ketamine.

As used herein, the term “2 theta value”, “2θ” or “2θ” refers to the signal position in degrees based on the experimental setup of the X-ray diffraction experiment and is a common abscissa unit in diffraction patterns. In general, the experimental setup requires that if a reflection is diffracted when the incoming beam forms an angle theta (θ) with a certain lattice plane, the reflected beam is recorded at an angle 2 theta (2 θ). It should be understood that reference herein to specific 2θ values for a specific polymorphic form is intended to mean the 2θ values (in degrees) as measured using the X-ray diffraction experimental conditions as described herein.

As used herein, the term “preferred orientation effects” refer to variable signal intensities or relative intensity differences between different PXRD measurements of the same samples that can be due to the orientation of the particles. Without wishing to be bound by theory, in PXRD it can be desirable to have a sample in which particles are oriented randomly (e.g., a powder). However, it can be difficult or in some cases impossible to achieve truly random particle orientations in practice. As particle size increases, the randomness of particle orientation can decrease, leading to increased challenges with achieving a preferred orientation. Without wishing to be bound by theory, a smaller particle size can reduce technical challenges associated with preferred orientation and allow for more accurate representation of signals. However, one of skill in the art will understand how to reduce or mitigate preferred orientation effects and will recognize preferred orientation effects that can exist even between two different measurements of the same sample. For instance, in some embodiments, differences in resolution or relative signal intensities can be attributed to preferred orientation effects.

As used herein, the term “substantially pure” with reference to a particular salt (or to a mixture of two or more salts) of a compound indicates the salt (or a mixture) includes less than 10%, less than 5%, less than 3%, less than 1%, less than 0.5%, less than 0.2%, or less than 0.1% by weight of impurities, including other salt forms of the compound. Such purity may be determined, for example, by powder X-ray diffraction.

As used herein, the term “polymorph” or “salt form” refers to different crystalline forms of the same compound and other solid state molecular forms including pseudo-polymorphs, such as hydrates (e.g., bound water present in the crystalline structure) and solvates (e.g., bound solvents other than water) of the same compound. Different crystalline polymorphs have different crystal structures due to a different packing of the molecules in the lattice. This results in a different crystal symmetry and/or unit cell parameters which directly influences its physical properties such as the X-ray diffraction characteristics of crystals or powders. A different polymorph, for example, will in general diffract at a different set of angles and will give different values for the intensities. Therefore, X-ray powder diffraction can be used to identify different polymorphs, or a solid form that comprises more than one polymorph, in a reproducible and reliable way (S. Byrn et al, Pharmaceutical Solids: A Strategic Approach to Regulatory Considerations, Pharmaceutical research, Vol. 12, No. 7, p. 945-954, 1995; J. K. Haleblian and W. McCrone, Pharmaceutical Applications of Polymorphism, Journal of Pharmaceutical Sciences, Vol. 58, No. 8, p. 91 1-929, 1969).

Crystalline polymorphic forms are of interest to the pharmaceutical industry and especially to those involved in the development of suitable dosage forms. If the polymorphic form is not held constant during clinical or stability studies, the exact dosage form used or studied may not be comparable from one lot to another. It is also desirable to have processes for producing a compound with the selected polymorphic form in high purity when the compound is used in clinical studies or commercial products since impurities present may produce undesired toxicological effects. Certain polymorphic forms may exhibit enhanced thermodynamic stability or may be more readily manufactured in high purity in large quantities, and thus are more suitable for inclusion in pharmaceutical formulations. Certain polymorphs may display other advantageous physical properties such as lack of hygroscopic tendencies, improved solubility, and enhanced rates of dissolution due to different lattice energies.

The term “amorphous” refers to any solid substance which (i) lacks order in three dimensions, or (ii) exhibits order in less than three dimensions, order only over short distances (e.g., less than 10 A), or both. Thus, amorphous substances include partially crystalline materials and crystalline mesophases with, e.g., one- or two-dimensional translational order (liquid crystals), orientational disorder (orientationally disordered crystals), or conformational disorder (conformationally disordered crystals). Amorphous solids may be characterized by known techniques, including powder X-ray diffraction (PXRD) crystallography, solid state nuclear magnet resonance (ssNMR) spectroscopy, differential scanning calorimetry (DSC), or some combination of these techniques. Amorphous solids may give diffuse PXRD patterns, typically comprised of one or two broad signals (i.e., signals having base widths of about 5° 2Φ or greater).

As used herein, the term “crystalline” refers to any solid substance exhibiting three-dimensional order, which in contrast to an amorphous solid substance, gives a distinctive PXRD pattern with sharply defined signals.

As used herein, the term “ambient temperature” refers to a temperature condition typically encountered in a laboratory setting. This includes the approximate temperature range of about 20 to about 30° C.

As used herein, the term “detectable amount” refers to an amount or amount per unit volume that can be detected using conventional techniques, such as X-ray powder diffraction, differential scanning calorimetry, HPLC, Fourier Transform Infrared Spectroscopy (FT-IR), Raman spectroscopy, and the like.

As used herein, the term “solvate” describes a molecular complex comprising the drug substance and a stoichiometric or non-stoichiometric amount of one or more solvent molecules (e.g., ethanol). When the solvent is tightly bound to the drug the resulting complex will have a well-defined stoichiometry that is independent of humidity. When, however, the solvent is weakly bound, as in channel solvates and hygroscopic compounds, the solvent content will be dependent on humidity and drying conditions. In such cases, the complex may be non-stoichiometric.

As used herein, the term “hydrate” describes a solvate comprising the drug substance and a stoichiometric or non-stoichiometric amount of water.

As used herein, the term “relative humidity” refers to the ratio of the amount of water vapor in air at a given temperature to the maximum amount of water vapor that can be held at that temperature and pressure, expressed as a percentage.

As used herein, the term “relative intensity” refers to an intensity value derived from a sample X-ray diffraction pattern. The complete ordinate range scale for a diffraction pattern is assigned a value of 100. A signal having intensity falling between about 50% to about 100% on this scale intensity is termed very strong (vs); a signal having intensity falling between about 50% to about 25% is termed strong (s). Additional weaker signals are present in typical diffraction patterns and are also characteristic of a given polymorph, wherein the additional signals are termed medium (m), weak (w) and very weak (vw).

As used herein, the term “slurry” refers to a solid substance suspended in a liquid medium, typically water or an organic solvent.

As used herein, the term “under vacuum” refers to typical pressures obtainable by a laboratory oil or oil-free diaphragm vacuum pump.

As used herein, the term “agonism” refers to the activation of a receptor or enzyme by a modulator, or agonist, to produce a biological response.

As used herein, the term “agonist” refers to a modulator that binds to a receptor or enzyme and activates the receptor to produce a biological response. By way of example only, “5HT_2A agonist” can be used to refer to a compound that exhibits an EC₅₀ with respect to 5HT_2A activity of no more than about 100 mM. In some embodiments, the term “agonist” includes full agonists or partial agonists. “Full agonist” refers to a modulator that binds to and activates a receptor with the maximum response that an agonist can elicit at the receptor. “Partial agonist” refers to a modulator that binds to and activates a given receptor, but has partial efficacy, that is, less than the maximal response, at the receptor relative to a full agonist.

As used herein, the term “positive allosteric modulator” refers to a modulator that binds to a site distinct from the orthosteric binding site and enhances or amplifies the effect of an agonist.

As used herein, the term “antagonism” refers to the inactivation of a receptor or enzyme by a modulator, or antagonist. Antagonism of a receptor, for example, is when a molecule binds to the receptor and does not allow activity to occur.

As used herein, the term “antagonist” or “neutral antagonist” refers to a modulator that binds to a receptor or enzyme and blocks a biological response. An antagonist has no activity in the absence of an agonist or inverse agonist but can block the activity of either, causing no change in the biological response.

As used herein, the term “composition” refers to a product comprising the specified ingredients in the specified amounts, as well as any product, which results, directly or indirectly, from combination of the specified ingredients in the specified amounts. By “pharmaceutically acceptable” it is meant the carrier, diluent or excipient must be compatible with the other ingredients of the formulation.

As used herein, the term “pharmaceutically acceptable excipient” refers to a substance that aids the administration of an active agent to and absorption by a subject. Pharmaceutical excipients useful in the present invention include, but are not limited to, binders, fillers, disintegrants, lubricants, coatings, sweeteners, flavors and colors. One of skill in the art will recognize that other pharmaceutical excipients are useful in the present invention.

Compounds

In some embodiments, the present disclosure relates to new salts and solid forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine, which is referred to as “compound 1.”

(R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine, “Compound 1”

The preparation of compound 1 fumarate salt according to literature methods yields the salt in a non-crystalline, gel form which affords various difficulties, especially in the manufacturability of Compound 1 into a suitable dosage form. Disclosed herein are salts and solid forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine that are useful to treat various disorders, such as brain disorders. Also disclosed are methods for making the salts and solid forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine and salts thereof, as well as a method of administering the salts, solid forms and salts thereof.

Solid Forms

A solid form of a salt may be a crystalline form or an amorphous form. Solid forms of compounds, such as crystalline forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate, may exist in more than one crystal form. Such different forms are referred to as polymorphs.

In some embodiments, the solid form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate disclosed herein is selected to be a crystalline form, such as a particular polymorph of a crystalline form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate, that provides one or more desired properties. In one embodiment, the crystalline form offers advantages over the amorphous form of the molecule. In another embodiment, the disclosed polymorph offers improved properties as compared to another polymorph of the molecule. The one or more desired properties may include, but are not limited to, physical properties, including but not limited to, melting point, glass transition temperature, flowability, and/or stability, such as thermal stability, mechanical stability, shelf life, stability against polymorphic transition, etc.; chemical properties, such as, but not limited to, hygroscopic properties, solubility in water and/or organic solvents, reactivity, compatibility with excipients and/or delivery vehicles; and/or pharmacokinetic properties, such as, but not limited to, bioavailability, absorption, distribution, metabolism, excretion, toxicity including cytotoxicity, dissolution rate, and/or half-life.

The desired polymorph may be produced by techniques as described herein and also are known to persons of ordinary skill in the art. Such techniques include, but are not limited to, crystallization in particular solvents and/or at particular temperatures, supersaturation, using a precipitation agent, such as a salt, glycol, alcohol, etc., co-crystallization, lyophilization, spray drying, freeze drying, and/or complexing with an inert agent.

Techniques to identify a particular solid form of a compound are described herein and include, but are not limited to, X-ray crystallography, X-ray diffraction, electron crystallography, powder diffraction, including X-ray, neutron, or electron diffraction, X-ray fiber diffraction, small-angle X-ray scattering, and/or melting point. When XRPD data are presented in table format, relative intensity values in peak tables are calculated using the net intensity values.

Salts

In some embodiments, (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dim ethyl propan-2-amine is prepared in the form of a salt of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine. Suitable salts include pharmaceutically acceptable salts of (R)-1-(5-methoxy-1H-indol-1-yl) N,N-dimethylpropan-2-amine. In some embodiments, the salt is provided as a solid form of a (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate acid-addition salt. In some embodiments, the salt is provided as a solid form of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine that is not a (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate.

In some embodiments, the salt of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine is formed from a suitable pharmaceutically acceptable acid, including, without limitation, inorganic acids such as hydrobromic acid, sulfuric acid, nitric acid, phosphoric acid, and the like, as well as organic acids such as formic acid, acetic acid, trifluoroacetic acid, propionic acid, glycolic acid, pyruvic acid, oxalic acid, maleic acid, malonic acid, succinic acid, fumaric acid, tartaric acid, citric acid, benzoic acid, cinnamic acid, mandelic acid, benzene sulfonic acid, isethionic acid, methanesulfonic acid, ethanesulfonic acid, p-toluenesulfonic acid, salicylic acid, xinafoic acid and the like.

In other embodiments, the salt of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine may be formed from a suitable pharmaceutically acceptable base, including, without limitation, inorganic bases such as sodium, potassium, lithium, ammonium, calcium, magnesium, iron, zinc, copper, manganese, aluminum salts and the like. Salts derived from pharmaceutically acceptable organic bases include, but are not limited to, salts of primary, secondary, and tertiary amines, substituted amines including naturally occurring substituted amines, cyclic amines and basic ion exchange resins, such as isopropylamine, trimethylamine, diethylamine, triethylamine, tripropylamine, tris(hydroxymethyl)aminomethane (Tris), ethanolamine, 2-dimethylaminoethanol, 2-diethylaminoethanol, dicyclohexylamine, lysine, arginine, histidine, caffeine, procaine, hydrabamine, choline, betaine, ethylenediamine, glucosamine, methylglucamine, theobromine, purines, piperazine, piperidine, N-ethylpiperidine, polyamine resins, and the like. Additional information concerning pharmaceutically acceptable salts can be found in, for example, S. M. Berge, et al., “Pharmaceutical Salts,” J. Pharm. Sci., 1977; 66:1-19 which is incorporated herein by reference.

In some embodiments, the salt is formed using an acid from Table 1a.

TABLE 1a
naphthalene-1,5-disulfonic acid citric acid
sulfuric acid                   d-glucuronic acid
ethane-1,2-disulfonic acid      lactobionic acid
p-toluenesulfonic acid          D-glucoheptonic acid
thiocyanic acid                 (−)-L-pyroglutamic acid
methanesulfonic acid            L-malic acid
dodecylsulfuric acid            hippuric acid
naphthalene-2-sulfonic acid     D-gluconic acid
benzenesulfonic acid            D,L-lactic acid
oxalic acid                     oleic acid
glycerophosphoric acid          succinic acid
ethanesulfonic acid, 2-hydroxy  glutaric acid
L-aspartic acid                 cinnamic acid
maleic acid                     adipic acid
phosphoric acid                 sebacic acid
ethanesulfonic acid             (+)-camphoric acid
glutamic acid                   acetic acid
pamoic (embonic) acid           nicotinic acid
glutaric acid, 2-oxo-           isobutyric acid
2-naphthoic acid, 1-hydroxy     propionic acid
malonic acid                    lauric acid
gentisic acid                   stearic acid
L-tartaric acid                 orotic acid
fumaric acid                    carbonic acid
galactaric (mucic) acid

The acid salts of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine disclosed herein can have any suitable stoichiometric ratio of acid to (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine. In one embodiment, the molar ratio of acid is from about 0.4 to about 2.2 acid to (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine, such as forms wherein the salt has a stoichiometric ratio of from about 0.5 to about 2, such as about 0.5, about 1 or about 2 moles of the acid for each mole of amine.

Purity

In some embodiments, the solid forms of compound 1 disclosed herein, and compositions comprising the same, are at least 50%, e.g., at least 55%, at least 60%, at least 65%, at least 70%, at least 80%, at least 85%, at least 90%, at least 95%, at least 96%, at least 97%, at least 98%, or at least 99% pure. In some embodiments, the solid forms of compound 1 disclosed herein, and compositions comprising the same, comprise less than 50%, less than 45%, less than 40%, less than 35%, less than 30%, less than 25% less than 20%, less than 15%, less than 10%, less than 5%, less than 4%, less than 3%, less than 2%, or less than 1% impurity. In some embodiments, the solid forms of compound 1 disclosed herein, and compositions comprising the same, comprise less than 50%, less than 45%, less than 40%, less than 35%, less than 30%, less than 25% less than 20%, less than 15%, less than 10%, less than 5%, less than 4%, less than 3%, less than 2%, or less than 1% of an alternative solid form, e.g., an alternative polymorph of compound 1. In some embodiments, the solid forms of compound 1 disclosed herein, and compositions comprising the same, comprise less than 50%, less than 45%, less than 40%, less than 35%, less than 30%, less than 25% less than 20%, less than 15%, less than 10%, less than 5%, less than 4%, less than 3%, less than 2%, or less than 1% of a compound other than compound 1. The purity of a sample of a solid form of compound 1 may be determined by any suitable means, for example, by powder X-ray diffraction.

As set forth below, compound 1 can form salts with different acids. In some embodiments, the compound 1 salts described herein exist in various crystalline forms. All XRPD signals described herein are in (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 salt is a compound 1 fumarate salt. In some embodiments, the compound 1 fumarate salt is amorphous. In some embodiments, the compound 1 fumarate salt is crystalline. In some embodiments, the compound 1 fumarate salt is a 1:1 compound 1:fumarate salt. In some embodiments, the compound 1 fumarate salt is a 2:1 compound 1:fumarate salt.

Compound 1 Fumarate Salts

In some embodiments, the compound 1 salt is a compound 1 fumarate salt. In some embodiments, the compound 1 fumarate salt is amorphous. In some embodiments, the compound 1 fumarate salt is crystalline. In some embodiments, the compound 1 fumarate salt is a 1:1 compound 1:fumarate salt. In some embodiments, the compound 1 fumarate salt is a 2:1 compound 1:fumarate salt.

Amorphous Compound 1 Fumarate Salts

In some embodiments, the compound 1 fumarate salt is an amorphous compound 1 fumarate salt characterized by a glass temperature (Tg) of about 24° C. In some embodiments, the amorphous compound 1 fumarate salt is characterized by a XRPD pattern that is substantially similar to that shown in FIG. 379. In some embodiments, the amorphous compound 1 fumarate salt is characterized by an XRPD pattern that is substantially similar to that shown in FIG. 390. In some embodiments, the amorphous compound 1 fumarate salt is characterized by a DSC profile that is substantially similar to that shown in any one of FIG. 384. In some embodiments, the amorphous compound 1 fumarate salt is characterized by a TGA profile that is substantially similar to that shown in any one of FIG. 388. In some embodiments, the amorphous compound 1 fumarate salt is characterized by a ¹H NMR spectrum that is substantially similar to that shown in FIG. 380. In some embodiments, the amorphous form is characterized by the LC profile shown in FIG. 389.

Compound 1 Monofumarate Salt: Form A

In some embodiments, the compound 1 fumarate salt is Form A crystalline monofumarate polymorph. In some embodiments, the crystalline compound 1 monofumarate salt Form A is characterized by the XRPD signals set for the below in any one of Tables 1 to 30. In some embodiments, the compound 1 monofumarate salt Form A XRPD pattern is substantially similar to that shown in FIG. 54, 61, 69, 6, 8, 72, 73, 74, 75, 77, 92, 93, 94, 95, 103, 104, 105, 109, 110, 126, 127, 128, 129, 130, 131, 132, or 133. In some embodiments, the compound 1 monofumarate salt Form A ¹H-NMR spectrum is substantially similar to that shown in any one of FIG. 63, 64, 65, 66, 89, 90, 91, 92, 118, 119, 120, 121, 122, 123, 124, or 125. In some embodiments, the compound 1 monofumarate salt Form A DVS is substantially similar to that shown in FIG. 12. In some embodiments, the compound 1 monofumarate salt TGA spectrum is substantially similar to that shown in any one of FIGS. 79, 80, 81, 82, 96, 97, 98, 367, 111, 134, 135, 136, 137, 138, 139, and 140. In some embodiments, the crystalline compound 1 monofumarate Form A is DSC spectrum is substantially similar to that shown in any one of FIGS. 84, 85, 86, 87, 99, 100, 101, 102, and 112.

In some embodiments, the crystalline compound 1 monofumarate Form A Is a crystalline polymorphic form characterized by DSC having a melting signal at about 118.2° C. In some embodiments, the crystalline compound 1 monofumarate Form A Is a crystalline polymorphic form characterized by TGA having an onset at about 207.9° C.

In some embodiments, the crystalline compound 1 monofumarate Form A is a 1:1 compound 1:fumarate salt.

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 10.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, and 22.5°2θ, (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 22.5°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 22.5°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 16.1°2θ, 22.5°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 16.1°2θ, 22.5°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 16.1°2θ, 19.5°2θ, 22.5°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 16.1°2θ, 19.5°2θ, 22.5°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 16.1°2θ, 19.5°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 16.1°2θ, 19.5°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 16.1°2θ, 19.5°2θ, 21.0°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 16.1°2θ, 19.5°2θ, 21.0°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 16.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 16.1°2θ, 19.4 °2θ, 19.5°2θ, 21.0°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ, (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 22.5°2θ, 25.2°2θ, and 28.2 °2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°28; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ, (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5 °2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, and 29.2°2θ, (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.2°2θ, 16.1°2θ, 19.1°2θ, 19.4 °2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.2°2θ, 15.8°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, and 29.2°2θ, (±0.2 20; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.2°2θ, 15.8°2θ, 16.1°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.2°2θ, 15.8°2θ, 16.1°2θ, 18.6°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, and 29.2°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.2°2θ, 15.8°2θ, 16.1°2θ, 18.6°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; 0). 1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.2°2θ, 15.8°2θ, 16.1°2θ, 18.6°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, 29.2°2θ, and 32.8°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.2°2θ, 15.8°2θ, 16.1°2θ, 18.6°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, 29.2°2θ, and 32.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.2°2θ, 15.8°2θ, 16.1°2θ, 16.9°2θ, 18.6°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, 29.2°2θ, and 32.8°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.2°2θ, 15.8°2θ, 16.1°2θ, 16.9°2θ, 18.6°2θ, 19.1°2θ, 19.4°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.7°2θ, 22.5°2θ, 25.2°2θ, 25.3°2θ, 28.2°2θ, 29.2°2θ, and 32.8°2θ (±0.2°2θ; ±0.1 °2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic monofumarate Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, or twenty XRPD signals selected from those set forth in Table 1.

TABLE 1
XRPD Signals for Compound 1 monofumarate salt Form
A Post-DVS (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
		Net	Gross	Rel.
	d	Intensity	Intensity	Intensity
2-θ (°)	Value	(counts)	(counts)	(%)
10.2	8.66	2783.7	2910.1	61.5
13.5	6.53	849.1	1002.0	18.8
14.2	6.24	1062.6	1225.8	23.5
15.8	5.62	678.8	870.8	15.0
15.8	5.62	682.6	874.9	15.1
16.1	5.52	1627.9	1827.2	36.0
16.9	5.25	603.7	816.4	13.3
18.6	4.77	672.8	934.9	14.9
19.1	4.64	1068.8	1351.8	23.6
19.4	4.56	1134.2	1427.1	25.1
19.5	4.55	1323.1	1618.1	29.2
21.0	4.22	1138.5	1461.4	25.2
21.5	4.13	1030.7	1355.4	22.8
21.7	4.10	1029.0	1353.6	22.7
22.5	3.95	4523.6	4841.6	100.0
25.2	3.53	1144.0	1408.0	25.3
25.3	3.52	697.0	958.4	15.4
28.2	3.16	2111.6	2357.7	46.7
29.2	3.05	701.3	937.3	15.5
32.8	2.73	665.1	855.1	14.7

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; 10.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2°2θ; 10.1 °2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2 °2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2°2θ; 10.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1 °2θ, (±0.2 20; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ, (±0.2 °2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (102°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (10.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; 10.1 °2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 2.

TABLE 2
Compound 1 monofumarate salt Form A (post-DVS) (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #2	10.1	8.78	453.1	521.7	11.0
Signal #5	13.4	6.63	1120.5	1198.0	27.1
Signal #6	14.0	6.33	1355.3	1438.8	32.8
Signal #7	15.6	5.69	683.6	775.7	16.5
Signal #8	15.9	5.59	1850.5	1944.7	44.8
Signal #10	18.4	4.82	713.8	834.9	17.3
Signal #11	18.9	4.69	900.7	1030.6	21.8
Signal #12	19.2	4.63	546.6	679.8	13.2
Signal #13	19.4	4.58	1352.2	1487.4	32.7
Signal #16	20.8	4.26	951.2	1097.0	23.0
Signal #17	21.3	4.17	1252.1	1404.5	30.3
Signal #18	21.5	4.13	1300.3	1454.9	31.5
Signal #20	22.3	3.98	4134.4	4291.9	100.0
Signal #21	23.2	3.84	523.4	674.7	12.7
Signal #22	24.4	3.65	487.6	626.9	11.8
Signal #23	25.0	3.56	579.6	710.2	14.0
Signal #26	28.1	3.17	789.5	930.8	19.1
Signal #28	29.0	3.07	652.5	789.7	15.8

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 20.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 20.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.1°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.1°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, or fifteen XRPD signals selected from those set forth in Table 3.

TABLE 3
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	13.4	6.62	1035.4	1153.0	22.4
Signal #2	14.0	6.32	1105.3	1227.3	23.9
Signal #3	15.6	5.69	716.8	856.4	15.5
Signal #4	15.9	5.59	2137.7	2280.4	46.2
Signal #5	18.4	4.82	810.5	975.6	17.5
Signal #6	18.9	4.69	1013.7	1194.0	21.9
Signal #7	19.4	4.58	1914.2	2105.2	41.4
Signal #8	20.9	4.25	1156.2	1370.3	25.0
Signal #9	21.3	4.16	1142.2	1364.4	24.7
Signal #10	21.5	4.14	1033.9	1258.0	22.4
Signal #11	22.3	3.98	4623.4	4853.4	100.0
Signal #12	23.1	3.84	483.4	709.0	10.5
Signal #13	25.0	3.56	543.9	725.0	11.8
Signal #14	28.1	3.17	920.9	1104.2	19.9
Signal #15	29.0	3.07	809.6	991.1	17.5

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two an XRPD signal at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.4°2θ (0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 29.1°2θ (002°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8 °2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5 °2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 17.6°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 17.6°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, or nineteen XRPD signals selected from those set forth in Table 4.

TABLE 4
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.75	295.1	396.3	11.2
Signal #2	13.4	6.61	590.2	708.3	22.4
Signal #3	14.0	6.32	971.2	1099.6	36.8
Signal #4	15.6	5.66	478.4	640.3	18.1
Signal #5	15.9	5.57	1179.8	1347.3	44.8
Signal #6	17.6	5.02	283.5	493.6	10.8
Signal #7	18.4	4.82	450.4	690.1	17.1
Signal #8	18.9	4.68	578.0	834.6	21.9
Signal #9	19.4	4.57	1377.9	1646.8	52.3
Signal #10	20.8	4.26	588.1	879.4	22.3
Signal #11	21.3	4.17	807.9	1101.5	30.7
Signal #12	21.5	4.13	632.4	926.3	24.0
Signal #13	22.4	3.97	2635.8	2925.6	100.0
Signal #14	23.2	3.83	366.2	644.3	13.9
Signal #15	24.4	3.64	372.9	619.1	14.1
Signal #16	25.0	3.56	473.5	698.5	18.0
Signal #17	25.0	3.55	470.7	695.2	17.9
Signal #18	28.1	3.17	584.1	770.6	22.2
Signal #19	29.1	3.07	589.6	768.1	22.4

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.3°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.3°20 and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more XRPD signals selected from the group consisting of 19.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.3 °2θ, and 22.3°2θ (0). 2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.3°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 21.2°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.3°2θ, 21.2°2θ, 21.4°2θ, and 22.3°2θ (0). 2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.8°2θ, 19.3°2θ, 21.2°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.8°2θ, 19.3°2θ, 21.2°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, and 28.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, and 28.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.9°2θ, 15.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, and 28.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.9°2θ, 15.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, and 28.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.9°2θ, 15.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, and 28.9°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.9°2θ, 15.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, and 28.9°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.9°2θ, 15.8°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, and 28.9 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.9°2θ, 15.8°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, and 28.9°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, and 28.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, and 28.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, 28.9°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, 28.9°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, 28.9°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7 °2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 28.0°2θ, 28.9°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7 °2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3 °2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 24.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 13.9°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 24.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 13.9°2θ, 15.5°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 24.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 13.9°2θ, 15.5°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 24.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 13.9°2θ, 15.5°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 23.0°2θ, 24.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, and 34.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 13.9°2θ, 15.5°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 23.0°2θ, 24.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 13.9°2θ, 15.5°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 23.0°2θ, 24.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, 34.0°2θ, and 37.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 13.9°2θ, 15.5°2θ, 15.8°2θ, 18.3°2θ, 18.8°2θ, 19.3°2θ, 20.7°2θ, 21.2°2θ, 21.4°2θ, 22.3°2θ, 23.0°2θ, 24.3°2θ, 24.9°2θ, 28.0°2θ, 28.9°2θ, 31.8°2θ, 34.0°2θ, and 37.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, or nineteen XRPD signals selected from those set forth in Table 5.

TABLE 5
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	13.3	6.66	259.1	316.1	19.6
Signal #2	13.9	6.36	348.6	406.8	26.3
Signal #3	15.5	5.71	161.2	222.6	12.2
Signal #4	15.8	5.61	451.0	514.1	34.1
Signal #5	18.3	4.84	286.1	367.1	21.6
Signal #6	18.8	4.71	309.7	397.7	23.4
Signal #7	19.3	4.59	655.8	748.2	49.6
Signal #8	20.7	4.28	448.6	549.2	33.9
Signal #9	21.2	4.19	529.5	633.3	40.0
Signal #10	21.4	4.14	531.4	636.2	40.2
Signal #11	22.3	3.99	1323.1	1428.1	100.0
Signal #12	23.0	3.86	149.6	249.9	11.3
Signal #13	24.3	3.66	170.1	258.4	12.9
Signal #14	24.9	3.57	236.3	318.5	17.9
Signal #15	28.0	3.19	365.6	453.9	27.6
Signal #16	28.9	3.09	312.5	399.2	23.6
Signal #17	31.8	2.81	210.2	285.0	15.9
Signal #18	34.0	2.63	270.9	355.3	20.5
Signal #19	37.2	2.42	143.4	234.5	10.8

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized an XRPD at 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.3°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, and 22.3°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.3°2θ, (0). 2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3 2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2 °2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2 °2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 6.

TABLE 6
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)Signal
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.78	554.9	650.3	12.3
Signal #2	13.4	6.62	1186.0	1292.9	26.2
Signal #3	14.0	6.32	1684.2	1793.9	37.2
Signal #4	15.6	5.68	810.5	932.6	17.9
Signal #5	15.9	5.58	2220.1	2346.2	49.1
Signal #6	18.4	4.82	766.6	921.6	17.0
Signal #7	18.9	4.69	1061.8	1230.2	23.5
Signal #8	19.2	4.62	876.7	1051.4	19.4
Signal #9	19.4	4.58	1606.4	1784.3	35.5
Signal #10	20.8	4.26	962.8	1157.4	21.3
Signal #11	21.3	4.16	1373.5	1572.2	30.4
Signal #12	21.5	4.13	1288.6	1488.0	28.5
Signal #13	22.3	3.98	4522.3	4718.8	100.0
Signal #14	23.2	3.84	596.9	781.2	13.2
Signal #15	24.4	3.64	515.6	688.9	11.4
Signal #16	25.0	3.56	740.1	905.6	16.4
Signal #17	28.1	3.17	804.6	970.8	17.8
Signal #18	29.1	3.07	720.0	878.9	15.9

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized an XRPD signal at 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.6°2θ and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 19.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.3°2θ, 19.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 19.6°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.3°2θ, 19.6°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6 °2θ, 23.6°2θ, and 25.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 16.1°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 16.1°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 16.1°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 16.1°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1 °2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6 °2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, and 28.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3 °2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, and 28.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, and 28.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, and 28.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, and 28.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, and 28.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, and 29.9°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, and 29.9°2θ (±02°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 16.9°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, and 29.9°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 16.9°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, and 29.9°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 16.9°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, 29.8°2θ, and 29.9 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 16.9°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, 29.8°2θ, and 29.9°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 16.9°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, 29.8°2θ, and 29.9 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 16.9°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, 29.8°2θ, and 29.9°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 16.9°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, 29.3°2θ, 29.8°2θ, 29.9°2θ, and 36.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.3°2θ, 13.6°2θ, 14.2°2θ, 16.1°2θ, 16.2°2θ, 16.9°2θ, 17.8°2θ, 18.5°2θ, 19.3°2θ, 19.6°2θ, 21.1°2θ, 21.6°2θ, 21.7°2θ, 22.6°2θ, 23.6°2θ, 23.9°2θ, 25.2°2θ, 28.3°2θ, 29.3°2θ, 29.8°2θ, 29.9°2θ, and 36.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, twenty, twenty-one, twenty-two, or twenty-three XRPD signals selected from those set forth in Table 7.

TABLE 7
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)Signal
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.3	8.58	169.1	350.6	18.1
Signal #2	13.6	6.50	286.0	545.7	30.6
Signal #3	14.2	6.24	339.2	620.7	36.3
Signal #5	16.1	5.51	328.6	691.8	35.2
Signal #4	16.2	5.47	310.8	677.7	33.3
Signal #6	16.9	5.24	158.5	551.1	17.0
Signal #7	17.8	4.98	351.8	771.4	37.7
Signal #8	18.5	4.79	464.5	900.4	49.7
Signal #9	19.3	4.60	542.6	991.7	58.1
Signal #10	19.6	4.52	716.5	1170.2	76.7
Signal #11	21.1	4.21	325.1	788.7	34.8
Signal #12	21.6	4.11	533.8	996.9	57.2
Signal #13	21.7	4.10	420.6	883.5	45.0
Signal #14	22.6	3.94	933.9	1390.6	100.0
Signal #16	23.6	3.77	398.5	840.6	42.7
Signal #17	23.6	3.76	412.2	853.5	44.1
Signal #15	23.9	3.72	377.4	813.5	40.4
Signal #18	25.2	3.53	403.3	806.0	43.2
Signal #19	28.3	3.15	286.5	627.2	30.7
Signal #20	29.3	3.04	150.8	473.9	16.1
Signal #22	29.8	2.99	156.9	467.8	16.8
Signal #21	29.9	2.99	163.3	473.4	17.5
Signal #23	36.7	2.45	95.9	313.9	10.3

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.8°20 and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.8°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.8°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or 00.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.8°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.8°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.8°2θ, 19.3°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.8°2θ, 19.3°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.8°2θ, 19.3°2θ, 21.3°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.8°2θ, 19.3°2θ, 21.3°2θ, 21.4°2θ, and 22.3°2θ (0). 2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.8°2θ, 19.3°2θ, 21.3°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.8°2θ, 19.3°2θ, 21.3°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.8°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.8°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.8°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.8°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.8°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, and 28.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.8°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.8°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.8°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3 °2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 24.4°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3 °2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 24.4°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 23.1°2θ, 24.4°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9 °2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 23.1°2θ, 24.4°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.0°2θ, 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.0°2θ, 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.0°2θ, 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, 29.0°2θ, and 34.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.0°2θ, 13.3°2θ, 14.0°2θ, 15.5°2θ, 15.8°2θ, 18.4°2θ, 18.9°2θ, 19.3°2θ, 20.8°2θ, 21.3°2θ, 21.4°2θ, 22.3°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, 29.0°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation), In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 8.

TABLE 8
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)Signal
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.0	8.80	327.3	398.8	10.4
Signal #2	13.3	6.64	779.1	861.7	24.8
Signal #3	14.0	6.34	969.1	1053.7	30.8
Signal #4	15.5	5.70	492.9	588.2	15.7
Signal #5	15.8	5.59	1218.2	1315.3	38.8
Signal #6	18.4	4.83	475.9	597.0	15.1
Signal #7	18.9	4.70	613.6	746.3	19.5
Signal #8	19.3	4.58	930.0	1071.4	29.6
Signal #9	20.8	4.27	721.0	878.3	22.9
Signal #10	21.3	4.18	1004.6	1167.5	32.0
Signal #11	21.4	4.14	893.7	1058.3	28.4
Signal #12	22.3	3.98	3143.2	3310.3	100.0
Signal #13	23.1	3.85	405.0	566.9	12.9
Signal #14	24.4	3.65	412.2	561.1	13.1
Signal #15	25.0	3.56	386.4	527.1	12.3
Signal #16	28.1	3.18	696.5	841.4	22.2
Signal #17	29.0	3.08	572.2	714.7	18.2
Signal #18	34.0	2.63	323.7	447.5	10.3

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized an XRPD signal at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.5°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.5°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 19.5°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 19.5°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.5°2θ, 21.6°2θ, and 22.4°2θ, 0.2°2θ; ±0.1°2θ; or ±0.0°28; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.5°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). 1n some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.3°2θ, 19.5 °2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.3 °2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 25.3°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0 °2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 25.3°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, and 28.2′28 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, 29.1°2θ, and 34.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, 29.1°2θ, and 34.0 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, 29.1°2θ, and 34.0 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, 29.1°2θ, and 34.0 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, 29.1°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.3°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, 29.1°2θ, and 34.0 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, twenty, or twenty-one XRPD signals selected from those set forth in Table 9.

TABLE 9
Compound 1 monofumarate salt Form A
(±0.2 °2θ; ±0.1 °2θ; or ±0.0 °2θ; Cu Kα1 radiation) Signal
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity	Signal
number	2-θ (°)	Value	(counts)	(counts)	(%)	number
Signal #1	8.4	10.48	436.6	566.4	0.1	10.7
Signal #2	13.4	6.59	877.2	1027.5	0.2	21.5
Signal #3	14.1	6.29	1164.6	1322.0	0.3	28.5
Signal #4	15.7	5.66	1107.0	1305.8	0.3	27.1
Signal #5	15.9	5.56	3118.1	3328.0	0.8	76.3
Signal #6	16.8	5.26	1123.8	1361.3	0.3	27.5
Signal #7	18.5	4.80	594.0	879.0	0.1	14.5
Signal #8	19.0	4.67	718.4	1015.6	0.2	17.6
Signal #9	19.3	4.6	980.6	1282.0	0.2	24.0
Signal #10	19.5	4.56	2391.0	2695.4	0.6	58.5
Signal #11	20.9	4.24	775.7	1086.9	0.2	19.0
Signal #12	21.4	4.15	1110.8	1421.3	0.3	27.2
Signal #13	21.6	4.12	1642.3	1951.7	0.4	40.2
Signal #14	22.4	3.96	4086.6	4385.1	1.0	100.0
Signal #15	23.2	3.83	618.3	897.3	0.2	15.1
Signal #16	24.5	3.63	480.9	732.4	0.1	11.8
Signal #17	25.1	3.54	764.1	1011.1	0.2	18.7
Signal #18	25.3	3.52	867.9	1112.1	0.2	21.2
Signal #19	28.2	3.17	714.4	940.2	0.2	17.5
Signal #20	29.1	3.06	544.6	761.8	0.1	13.3
Signal #21	34.0	2.63	488.8	672.7	0.1	12.0

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized an XRPD signal at 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.3°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; 10.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, and 28.1°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9 °2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4 °2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 23.1°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (102°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0 °2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 23.1°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 23.1°2θ, 25.0°2θ, 25.1°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 23.1°2θ, 25.0°2θ, 25.1°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.7°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 23.1°2θ, 25.0°2θ, 25.1°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.7°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 23.1°2θ, 25.0°2θ, 25.1°2θ, 28.1°2θ, and 29.1°2θ (10.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.7°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 25.1°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.7°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 23.1, °2θ, 24.4°2θ, 25.0°2θ, 25.1°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 10.

TABLE 10
Compound 1 monofumarate salt Form A
(±0.2 °2θ; ±0.1 °2θ; or ±0.0 °2θ; Cu Kα1 radiation) Signal
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity	Signal
number	2-θ (°)	Value	(counts)	(counts)	(%)	number
Signal	13.4	6.61	407.6	504.5	0.2	20.6
#3
Signal	14.0	6.31	505.5	604.4	0.3	25.5
#4
Signal	15.6	5.68	361.8	469.7	0.2	18.3
#5
Signal	15.9	5.58	991.7	1102.1	0.5	50.1
#6
Signal	16.7	5.30	247.2	366.0	0.1	12.5
#7
Signal	18.4	4.82	293.7	439.1	0.1	14.8
#9
Signal	19.0	4.68	367.8	520.4	0.2	18.6
#10
Signal	19.4	4.58	815.1	971.1	0.4	41.2
#11
Signal	20.9	4.25	429.2	593.0	0.2	21.7
#13
Signal	21.4	4.16	590.7	759.0	0.3	29.8
#14
Signal	21.5	4.14	618.4	787.4	0.3	31.2
#15
Signal	22.3	3.97	1979.5	2150.0	1.0	100.0
#16
Signal	23.1	3.84	284.4	450.0	0.1	14.4
#17
Signal	24.4	3.65	245.5	397.7	0.1	12.4
#18
Signal	25.0	3.56	358.3	503.2	0.2	18.1
#19
Signal	25.1	3.54	250.4	393.7	0.1	12.6
#20
Signal	28.1	3.17	462.2	605.5	0.2	23.3
#23
Signal	29.1	3.07	313.7	452.9	0.2	15.8
#25

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, or sixteen XRPD signals selected from those set forth in Table 11.

TABLE 11
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)Signal
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	13.4	6.62	569.1	662.3	25.8
Signal #2	14.0	6.32	694.4	791.0	31.5
Signal #3	15.6	5.69	411.6	522.8	18.7
Signal #4	15.9	5.58	980.0	1095.7	44.5
Signal #5	18.4	4.82	432.7	587.2	19.6
Signal #6	18.9	4.69	518.5	680.2	23.5
Signal #7	19.4	4.57	824.8	991.1	37.4
Signal #8	20.8	4.26	543.2	719.5	24.7
Signal #9	21.3	4.17	754.5	932.7	34.3
Signal #10	21.5	4.13	837.3	1015.7	38.0
Signal #11	22.3	3.98	2202.8	2377.8	100.0
Signal #12	23.2	3.84	323.0	487.9	14.7
Signal #13	24.4	3.65	293.9	445.4	13.3
Signal #14	25.0	3.56	306.4	449.4	13.9
Signal #15	28.1	3.18	467.1	609.7	21.2
Signal #16	29.0	3.07	371.6	504.6	16.9

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized an XRPD signal at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ. Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ24.4°2θ, and 28.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, and 28.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ24.4°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ24.4°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.1°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 23.1°2θ, 24.4°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.1°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9 °2θ, 21.4°2θ, 21.5°2θ, 23.1°2θ, 24.4°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.1°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9 °2θ, 21.4°2θ, 21.5°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.1°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.1°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 12.

TABLE 12
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)Signal
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.77	194.5	298.0	10.1
Signal #2	13.4	6.62	573.6	683.1	29.8
Signal #3	14.0	6.32	636.9	751.1	33.1
Signal #4	15.6	5.66	310.4	439.0	16.1
Signal #5	15.9	5.58	965.4	1096.1	50.2
Signal #6	18.4	4.82	382.9	551.9	19.9
Signal #7	18.9	4.69	447.1	622.0	23.2
Signal #8	19.4	4.57	726.7	904.9	37.8
Signal #9	20.9	4.26	472.2	653.1	24.5
Signal #10	21.4	4.15	688.8	871.1	35.8
Signal #11	21.5	4.13	701.5	883.7	36.5
Signal #12	22.4	3.97	1923.9	2102.0	100.0
Signal #13	23.1	3.84	338.5	506.6	17.6
Signal #14	24.4	3.64	227.0	380.2	11.8
Signal #15	25.0	3.56	311.8	460.2	16.2
Signal #16	28.1	3.17	447.9	581.8	23.3
Signal #17	29.0	3.07	328.0	453.4	17.0

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 21.0°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.0°2θ, 21.0°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.0°2θ, 21.0°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.0°2θ, 21.0°2θ, 22.5°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.0°2θ, 21.0°2θ, 22.5°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.0°2θ, 21.0°2θ, 21.4°2θ, 22.5°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.0°2θ, 21.0°2θ, 21.4°2θ, 22.5°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, 21.0°2θ, 21.4°2θ, 22.5°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, 21.0°2θ, 21.4°2θ, 22.5°2θ, and 29.1°2θ (10.2°2θ; 10.1°20; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, 21.0°2θ, 21.4°2θ, 22.5°2θ, 25.1°2θ, and 29.1°2θ (±0.2°2θ; 10.1°20; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, 21.0°2θ, 21.4°2θ, 22.5°2θ, 25.1°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 29.1°2θ (10.2°2θ; 10.1 °2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 29.1°2θ (10.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 16.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). 1n some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 21.0 °2θ, 21.4°2θ, 21.6°2θ, 22.5 °2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 19.0°2θ, 19.5 °2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 19.0 °2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 28.2°28, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 28.2°2θ, and 29.1°28 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.0°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.0°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.0°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 23.3°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.0°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 23.3°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.0°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 23.3°2θ, 24.5°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.0°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, 23.3°2θ, 24.5°2θ, 25.1°2θ, 25.3°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, twenty, twenty-one, or twenty-two XRPD signals selected from those set forth in Table 13.

TABLE 13
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation) Signal
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.2	8.70	584.4	675.3	13.3
Signal #2	13.5	6.57	1164.2	1289.7	26.6
Signal #3	14.	6.28	1657.0	1789.0	37.8
Signal #4	15.7	5.64	978.5	1129.7	22.3
Signal #5	16.0	5.55	2085.3	2240.7	47.6
Signal #6	16.8	5.26	708.5	870.2	16.2
Signal #7	18.5	4.79	603.7	803.8	13.8
Signal #8	19.0	4.66	1002.4	1218.2	22.9
Signal #10	19.5	4.55	1564.7	1791.1	35.7
Signal #9	19.5	4.54	1397.8	1625.2	31.9
Signal #11	20.0	4.44	538.7	773.6	12.3
Signal #12	21.0	4.23	2225.4	2471.7	50.8
Signal #13	21.4	4.15	1663.7	1913.6	38.0
Signal #14	21.6	4.10	1419.5	1670.0	32.4
Signal #15	22.5	3.96	4382.9	4629.8	100.0
Signal #17	23.2	3.82	656.3	890.9	15.0
Signal #16	23.3	3.81	511.7	744.2	11.7
Signal #18	24.5	3.63	453.5	669.3	10.3
Signal #19	25.1	3.54	1554.4	1762.4	35.5
Signal #20	25.3	3.52	559.7	764.4	12.8
Signal #21	28.2	3.16	1001.2	1195.7	22.8
Signal #22	29.1	3.07	1713.2	1907.7	39.1

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, and 28.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2°28; ±0.1°28; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 14.

TABLE 14
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.74	390.6	456.0	12.0
Signal #2	13.4	6.61	888.1	970.6	27.2
Signal #3	14.0	6.31	1124.2	1211.0	34.5
Signal #4	15.6	5.66	517.1	616.4	15.8
Signal #5	15.9	5.57	1498.7	1602.6	45.9
Signal #6	18.4	4.81	578.0	724.0	17.7
Signal #7	18.9	4.68	820.7	978.3	25.2
Signal #8	19.2	4.61	389.6	552.7	11.9
Signal #9	19.4	4.57	1069.6	1235.5	32.8
Signal #10	20.9	4.25	751.3	935.0	23.0
Signal #11	21.4	4.16	1081.1	1268.3	33.1
Signal #12	21.5	4.12	978.3	1166.1	30.0
Signal #13	22.4	3.97	3262.5	3448.2	100.0
Signal #14	23.2	3.83	418.2	593.7	12.8
Signal #15	24.4	3.64	358.7	518.8	11.0
Signal #16	25.0	3.55	446.9	599.2	13.7
Signal #17	28.1	3.17	615.9	771.0	18.9
Signal #18	29.1	3.07	544.1	691.4	16.7

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two an XRPD signal at and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.4°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4 °2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.4 °2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.4 °2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.5 °2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; 10.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 15.

TABLE 15
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.74	587.6	674.4	12.7
Signal #2	13.4	6.60	1464.0	1577.0	31.8
Signal #3	14.0	6.30	1620.4	1738.7	35.2
Signal #4	15.6	5.68	947.7	1085.3	20.6
Signal #5	15.9	5.57	3837.6	3982.9	83.3
Signal #6	16.8	5.27	587.6	747.5	12.7
Signal #7	18.5	4.80	769.8	950.4	16.7
Signal #8	19.0	4.67	1135.3	1329.5	24.6
Signal #9	19.4	4.57	2103.0	2305.6	45.6
Signal #10	20.9	4.24	1041.9	1261.2	22.6
Signal #11	21.4	4.16	1630.8	1855.4	35.4
Signal #12	21.6	4.12	1509.5	1735.8	32.8
Signal #13	22.4	3.97	4609.0	4835.8	100.0
Signal #14	23.2	3.84	565.4	784.0	12.3
Signal #15	24.5	3.64	573.9	777.1	12.5
Signal #16	25.1	3.55	599.1	792.5	13.0
Signal #17	28.2	3.17	923.2	1105.3	20.0
Signal #18	29.1	3.06	1197.4	1378.0	26.0

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ and 22.4°28 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 28.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, 28.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, 28.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 16.

TABLE 16
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #3	13.4	6.61	606.0	707.0	25.4
Signal #4	14.0	6.31	771.3	877.6	32.4
Signal #5	15.6	5.67	395.2	537.1	16.6
Signal #6	15.9	5.57	1178.8	1327.2	49.5
Signal #8	18.4	4.82	404.2	604.9	17.0
Signal #9	18.9	4.69	518.3	734.1	21.7
Signal #10	19.4	4.57	812.4	1040.2	34.1
Signal #12	20.9	4.26	564.5	813.3	23.7
Signal #13	21.3	4.16	804.2	1055.1	33.7
Signal #14	21.5	4.13	716.9	968.0	30.1
Signal #15	22.4	3.97	2383.2	2630.9	100.0
Signal #16	23.2	3.84	313.7	551.0	13.2
Signal #17	24.4	3.65	345.1	564.0	14.5
Signal #18	25.0	3.56	382.6	590.3	16.1
Signal #21	28.1	3.17	468.2	655.0	19.6
Signal #22	28.8	3.10	264.7	443.2	11.1
Signal #23	29.0	3.07	374.4	549.1	15.7

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signals at 22.4°28 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, and 22.4°2θ, 0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; 0). 1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.9°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ, (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.5 °2θ, 20.9°2θ, 21.4°2θ, 21.6 °2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.2 °2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 15.9°2θ, 18.5 °2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 15.9°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, or sixteen XRPD signals selected from those set forth in Table 17.

TABLE 17
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.71	1241.3	1366.7	12.2
Signal #2	13.4	6.58	2022.8	2186.1	20.0
Signal #3	14.1	6.28	2609.3	2775.8	25.7
Signal #4	15.6	5.66	1772.9	1965.9	17.5
Signal #5	15.9	5.56	3719.6	3919.4	36.7
Signal #6	18.5	4.79	1791.7	2042.1	17.7
Signal #7	19.0	4.67	2443.2	2709.9	24.1
Signal #8	19.2	4.61	1426.7	1699.6	14.1
Signal #9	19.5	4.56	2668.2	2946.1	26.3
Signal #10	20.9	4.24	1856.7	2150.6	18.3
Signal #11	21.4	4.15	2295.4	2595.2	22.7
Signal #12	21.6	4.12	2171.5	2472.4	21.4
Signal #13	22.4	3.96	10134.2	10431.2	100.0
Signal #14	25.1	3.55	1151.0	1390.8	11.4
Signal #15	28.2	3.16	1918.1	2148.9	18.9
Signal #16	29.1	3.06	1701.6	1923.7	16.8

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at of 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; 10.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2 °2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (10.2°2θ; 10.1 °2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, and 22.4 °2θ (10.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, and 22.4°2θ (±0.2 °2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, and 28.1°2θ, (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, and 28.1°2θ, (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, and 28.1°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4 °2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, and 28.1°2θ, (±0.2°2θ; 10.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4 °2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0 °2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.5°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 18.

TABLE 18
Compound 1 monofumarate salt Form A (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.74	612.0	721.1	11.1
Signal #2	13.4	6.60	1367.1	1491.1	24.7
Signal #3	14.0	6.31	1721.6	1849.3	31.2
Signal #4	15.6	5.67	1053.0	1192.0	19.1
Signal #5	15.9	5.57	2505.2	2648.3	45.3
Signal #6	18.4	4.81	753.0	928.6	13.6
Signal #7	19.0	4.68	1208.8	1400.0	21.9
Signal #8	19.2	4.62	739.1	936.6	13.4
Signal #9	19.4	4.57	1838.3	2040.4	33.3
Signal #10	20.9	4.25	1068.5	1288.1	19.3
Signal #11	21.4	4.15	1265.1	1488.6	22.9
Signal #12	21.5	4.12	1503.7	1727.7	27.2
Signal #13	22.4	3.97	5524.7	5745.0	100.0
Signal #14	23.2	3.83	581.3	788.0	10.5
Signal #15	25.0	3.55	764.5	941.7	13.8
Signal #16	28.1	3.17	845.5	1019.4	15.3
Signal #17	29.1	3.07	744.7	908.1	13.5

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized an XRPD signal at 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.0°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, 19.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, 19.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, 19.5°2θ, 21.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, 19.5°2θ, 21.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.5°2θ, 21.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.5°2θ, 21.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.5°2θ, 21.6°2θ, and 22.5°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.5°2θ, 21.6°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.5°2θ, 21.6°2θ, and 22.5°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.5°2θ, 21.6°2θ, and 22.5°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6 °2θ, and 22.5 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, and 22.5°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5 °2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2 °2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 28.2°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5 °2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, and 28.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, 28.2°2θ, and 29.2°2θ (10.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 25.1°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 23.1°2θ, 25.1°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.1°2θ, 19.2°2θ, 19.5°2θ, 21.0°2θ, 21.5°2θ, 21.6°2θ, 22.5°2θ, 23.1°2θ, 25.1°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 19.

TABLE 19
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.2	8.67	793.3	924.2	13.2
Signal #2	13.5	6.56	856.6	1014.7	14.3
Signal #3	14.1	6.26	1820.6	1986.6	30.3
Signal #4	15.7	5.64	1413.2	1606.9	23.5
Signal #5	16.0	5.54	2051.0	2251.0	34.2
Signal #6	18.5	4.78	922.8	1178.2	15.4
Signal #7	19.1	4.65	1096.9	1373.4	18.3
Signal #8	19.2	4.61	1291.3	1572.6	21.5
Signal #9	19.5	4.55	1732.1	2021.0	28.9
Signal #10	21.0	4.23	1067.6	1379.5	17.8
Signal #11	21.5	4.13	1539.9	1851.6	25.7
Signal #12	21.6	4.11	1254.6	1565.6	20.9
Signal #13	22.5	3.95	6003.1	6302.2	100.0
Signal #14	23.1	3.84	619.4	902.2	10.3
Signal #15	25.1	3.54	882.6	1126.2	14.7
Signal #16	28.2	3.16	1027.2	1247.6	17.1
Signal #17	29.2	3.06	666.9	879.4	11.1

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.0°2θ, and 22.4°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 16.0°2θ, and 22.4°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 16.0°2θ, and 22.4°2θ (±0.2°2θ; 10.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 16.0°2θ, 18.5°2θ, and 22.4°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 16.0°2θ, 18.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 16.0°2θ, 18.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 16.0°2θ, 18.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 16.0°2θ, 18.5°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 16.0°2θ, 18.5°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, and 22.4°2θ (002°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, and 22.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5 °2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0 °2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0 °2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5 °2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, 29.1°2θ, and 37.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, 29.1°2θ, and 37.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, 29.1°2θ, and 37.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, 29.1°2θ, and 37.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 20.

TABLE 20
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.72	2634.4	2789.7	40.6
Signal #2	13.4	6.58	2205.9	2401.6	34.0
Signal #3	14.1	6.28	1902.4	2105.8	29.3
Signal #4	15.6	5.66	1239.3	1480.2	19.1
Signal #5	16.0	5.55	2878.5	3127.2	44.4
Signal #6	18.5	4.80	2281.8	2593.0	35.2
Signal #7	19.0	4.67	1641.7	1970.6	25.3
Signal #8	19.2	4.61	934.0	1269.5	14.4
Signal #10	19.5	4.56	1981.8	2323.4	30.5
Signal #11	20.9	4.24	1261.1	1625.6	19.4
Signal #12	21.4	4.14	1457.3	1828.0	22.5
Signal #13	21.6	4.12	1409.8	1781.7	21.7
Signal #14	22.4	3.96	6490.3	6861.4	100.0
Signal #15	24.5	3.63	713.5	1045.2	11.0
Signal #16	25.1	3.55	840.4	1155.0	12.9
Signal #17	28.2	3.16	1318.9	1588.1	20.3
Signal #18	29.1	3.06	1088.5	1343.6	16.8
Signal #19	37.4	2.40	817.7	1014.0	12.6

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.1°2θ and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.1°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.1°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.1°2θ, 19.2°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.1°2θ, 19.2°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 16.1°2θ, 19.2°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 16.1°2θ, 19.2°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.6°2θ, and 22.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.6°2θ, 22.6°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.6°2θ, 22.6°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.6°2θ, 22.6°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.6°2θ, 22.6°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 28.3°2θ, and 29.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 28.3°2θ, and 29.2 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 28.3°2θ, and 29.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 15.9°2θ, 16.1°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 19.2°2θ, 19.5°2θ, 21.2 °2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 19.2°2θ, 19.5°2θ, 21.2 °2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 18.7°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, and 29.2°2θ (102°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 18.7°2θ, 19.2 °2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.6°2θ, 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 18.7°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, and 29.2°2θ (10.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.6°2θ, 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 18.7°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 13.6°2θ, 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 18.7°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.3°2θ, 13.6°2θ, 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 18.7°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, and 29.2°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 13.6°2θ, 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 18.7°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, 29.2°2θ, and 34.3°2θ (±0.2°2θ; 10.1 °2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.3°2θ, 13.6°2θ, 14.2°2θ, 15.9°2θ, 16.1°2θ, 17.0°2θ, 18.7°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.3°2θ, 21.6°2θ, 22.6°2θ, 25.2°2θ, 25.5°2θ, 28.3°2θ, 29.2°2θ, and 34.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 21.

TABLE 21
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.3	8.59	447.0	567.1	10.7
Signal #2	13.6	6.50	472.0	623.8	11.3
Signal #3	14.2	6.24	712.7	870.2	17.1
Signal #4	15.9	5.58	1094.4	1286.5	26.3
Signal #5	16.1	5.51	1803.9	2000.9	43.3
Signal #6	17.0	5.21	524.9	738.8	12.6
Signal #7	18.7	4.75	498.7	763.4	12.0
Signal #8	19.2	4.61	1141.3	1424.3	27.4
Signal #9	19.5	4.55	1054.1	1343.4	25.3
Signal #10	21.2	4.18	635.5	947.9	15.3
Signal #12	21.3	4.17	715.0	1027.4	17.2
Signal #11	21.6	4.12	1330.4	1642.4	31.9
Signal #13	22.6	3.94	4165.8	4467.5	100.0
Signal #14	25.2	3.53	609.3	857.8	14.6
Signal #15	25.5	3.49	499.2	742.4	12.0
Signal #16	28.3	3.15	800.0	1030.3	19.2
Signal #17	29.2	3.06	972.6	1197.2	23.3
Signal #18	34.3	2.61	431.9	624.2	10.4

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized an XRPD signal at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; 10.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (±0.2 °2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 25.3°2θ (10.2°2θ; 10.1 °2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0 °2θ (10.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0°2θ (±0.2 °2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0°2θ (10.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 19.0°2θ, 19.4 °2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0 °2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, 28.2°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5 °2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.3°2θ, 28.2°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.3°2θ, 28.2°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.3°2θ, 28.2°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 25.3°2θ, 28.2°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.7°2θ, 15.9°2θ, 16.8°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.0°2θ, 25.3°2θ, 28.2°2θ, and 34.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 22.

TABLE 22
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	13.4	6.59	975.2	1094.5	15.3
Signal #2	14.1	6.29	1496.5	1617.5	23.5
Signal #3	15.7	5.65	891.2	1037.8	14.0
Signal #4	15.9	5.57	2189.1	2341.4	34.3
Signal #5	16.8	5.28	1470.6	1636.4	23.1
Signal #6	18.5	4.80	823.4	1023.6	12.9
Signal #7	19.0	4.66	923.4	1140.2	14.5
Signal #8	19.4	4.57	2755.9	2981.2	43.2
Signal #9	20.9	4.24	873.9	1118.7	13.7
Signal #10	21.4	4.15	1076.3	1328.0	16.9
Signal #11	21.6	4.12	1283.0	1536.0	20.1
Signal #12	22.4	3.97	6373.2	6626.6	100.0
Signal #13	23.2	3.83	699.3	941.4	11.0
Signal #14	25.0	3.56	643.1	859.0	10.1
Signal #15	25.3	3.52	1342.9	1554.8	21.1
Signal #16	28.2	3.17	723.1	914.8	11.3
Signal #17	34.0	2.64	923.9	1077.2	14.5

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.3°2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ and 22.3°28 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, and 28.1°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, and 28.1°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9 °2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9 °2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.1°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (102°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4 °2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.1°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.1°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.1°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.1°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.1°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 23.

TABLE 23
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	13.4	6.62	878.7	981.0	21.9
Signal #2	14.0	6.32	974.4	1083.3	24.3
Signal #3	15.6	5.68	612.1	735.5	15.3
Signal #4	15.9	5.58	1461.0	1588.6	36.4
Signal #5	18.4	4.82	464.7	638.8	11.6
Signal #6	18.9	4.69	748.4	933.1	18.7
Signal #7	19.4	4.57	993.5	1184.9	24.8
Signal #8	20.9	4.26	717.0	921.7	17.9
Signal #9	21.3	4.17	1316.0	1528.6	32.8
Signal #10	21.5	4.13	939.4	1154.6	23.4
Signal #11	22.1	4.01	491.3	711.8	12.2
Signal #12	22.3	3.98	4011.6	4232.6	100.0
Signal #13	23.2	3.84	563.9	781.1	14.1
Signal #14	24.4	3.65	432.1	633.7	10.8
Signal #15	25.0	3.56	574.5	767.9	14.3
Signal #16	28.1	3.17	594.0	764.7	14.8
Signal #17	29.1	3.07	562.4	725.7	14.0

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ, 0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 19.0°2θ, 19.4°2θ, 20.9 °2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4 °2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0 °2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 19.0°2θ, 19.4°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 24.

TABLE 24
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.73	395.4	483.4	11.4
Signal #2	13.4	6.60	941.6	1057.2	27.2
Signal #3	14.0	6.30	1217.5	1345.7	35.1
Signal #4	15.6	5.67	603.6	758.3	17.4
Signal #5	15.9	5.56	1492.2	1652.8	43.0
Signal #6	18.4	4.81	459.1	667.9	13.2
Signal #7	19.0	4.68	726.9	950.7	21.0
Signal #8	19.4	4.56	1194.5	1429.5	34.5
Signal #9	20.9	4.25	771.4	1023.4	22.3
Signal #10	21.4	4.15	1023.5	1275.3	29.5
Signal #11	21.6	4.12	1190.5	1441.6	34.3
Signal #12	22.4	3.97	3466.6	3708.9	100.0
Signal #13	23.2	3.83	454.8	680.3	13.1
Signal #14	24.5	3.64	386.2	586.7	11.1
Signal #15	25.1	3.55	482.0	668.8	13.9
Signal #16	28.2	3.17	745.2	916.8	21.5
Signal #17	29.1	3.07	595.8	761.5	17.2

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signal at 25.2°2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.8°2θ, and 25.2°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.8°2θ, 19.4°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.8°2θ, 19.4°2θ, and 25.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 16.8°2θ, 19.4°2θ, and 25.2°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 16.8°2θ, 19.4°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.3°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.3°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.3°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.3°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 14.0°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 19.4°2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (10.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (102°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.9°2θ, 19.4 °2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (10.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.4°2θ, 18.9 °2θ, 19.4°2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.2°2θ, and 33.9°2θ (10.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 25.2°2θ, and 33.9°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.4 °2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 25.2°2θ, and 33.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 25.2°2θ, 28.1°2θ, and 33.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 8.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8 °2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.4°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 25.2°2θ, 28.1 °2θ, and 33.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, or sixteen XRPD signals selected from those set forth in Table 25.

TABLE 25
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	8.4	10.57	1460.1	1522.2	27.4
Signal #2	14.0	6.33	1608.8	1685.0	30.2
Signal #3	15.6	5.69	912.4	1008.0	17.1
Signal #4	15.9	5.58	1920.6	2022.6	36.0
Signal #5	16.8	5.29	5017.4	5129.2	94.1
Signal #6	18.4	4.82	567.0	692.0	10.6
Signal #7	18.9	4.69	611.8	746.2	11.5
Signal #8	19.4	4.58	2522.6	2662.6	47.3
Signal #9	20.8	4.26	613.4	757.1	11.5
Signal #10	21.4	4.16	1394.0	1542.5	26.1
Signal #11	21.5	4.14	1279.1	1428.1	24.0
Signal #12	22.3	3.98	1796.9	1943.3	33.7
Signal #13	25.0	3.55	558.1	692.4	10.5
Signal #14	25.2	3.52	5332.2	5466.0	100.0
Signal #15	28.1	3.17	547.3	677.0	10.3
Signal #16	33.9	2.64	1489.4	1602.8	27.9

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.7°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.7°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.7°2θ, 16.0°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.7°2θ, 16.0°2θ, 19.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, and 22.4 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4 °2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4 °2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0 °2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.2°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.2°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.2°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.2°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 25.2°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; 0). 1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 25.2°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 25.2°2θ, 28.2°2θ, and 29.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 25.2°2θ, 28.2°2θ, 29.2°2θ, and 34.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.5°2θ, 14.1°2θ, 15.7°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.4°2θ, 21.0°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 25.2°2θ, 28.2°2θ, 29.2°2θ, and 34.3°2θ (±0.2°2θ; ±0.1 °2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, or nineteen XRPD signals selected from those set forth in Table 26.

TABLE 26
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.2	8.71	450.0	545.2	11.0
Signal #2	13.5	6.57	969.9	1105.1	23.7
Signal #3	14.1	6.28	1248.5	1390.8	30.5
Signal #4	15.7	5.65	2079.2	2250.6	50.8
Signal #5	16.0	5.55	2025.4	2204.5	49.5
Signal #6	18.5	4.79	571.9	808.1	14.0
Signal #7	19.0	4.67	892.9	1144.8	21.8
Signal #8	19.4	4.56	2194.6	2457.6	53.6
Signal #9	21.0	4.23	1051.0	1335.2	25.7
Signal #10	21.4	4.15	1280.5	1568.9	31.3
Signal #11	21.6	4.12	1486.4	1775.6	36.3
Signal #12	22.4	3.96	4095.3	4382.0	100.0
Signal #13	23.2	3.82	470.1	744.5	11.5
Signal #14	24.5	3.63	448.6	701.5	11.0
Signal #15	25.1	3.54	648.2	889.9	15.8
Signal #16	25.2	3.53	481.3	721.5	11.8
Signal #17	28.2	3.16	841.2	1055.2	20.5
Signal #18	29.2	3.06	453.3	658.7	11.1
Signal #19	34.3	2.62	421.1	580.4	10.3

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ, (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0 °2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ, (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 24.4°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 24.4°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 24.4°2θ, 25.0°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 24.4°2θ, 25.0°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 24.4°2θ, 25.0°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 24.4°2θ, 25.0°2θ, 26.9°2θ, 28.1°2θ, and 29.0°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 24.4°2θ, 25.0°2θ, 26.9°2θ, 28.1°2θ, 29.0°2θ, and 36.4°2θ, (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 24.4°2θ, 25.0°2θ, 26.9°2θ, 28.1°2θ, 29.0°2θ, and 36.4°2θ, (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 26.9°2θ, 28.1°2θ, 29.0°2θ, and 36.4 °2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 26.9°2θ, 28.1°2θ, 29.0°2θ, and 36.4°2θ, (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, or twenty XRPD signals selected from those set forth in Table 27.

TABLE 27
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.78	398.9	462.8	12.3
Signal #2	13.4	6.62	699.1	778.7	21.5
Signal #3	14.0	6.32	920.9	1005.3	28.4
Signal #4	15.6	5.69	872.3	972.4	26.9
Signal #5	15.9	5.58	1387.2	1492.2	42.7
Signal #6	18.4	4.82	700.2	837.4	21.6
Signal #7	18.9	4.70	900.4	1050.3	27.7
Signal #8	19.2	4.63	454.3	610.2	14.0
Signal #9	19.4	4.57	1213.6	1374.1	37.4
Signal #10	20.8	4.26	746.6	923.0	23.0
Signal #11	21.3	4.16	676.0	855.8	20.8
Signal #12	21.5	4.13	916.0	1096.4	28.2
Signal #13	22.3	3.98	3247.0	3425.1	100.0
Signal #14	23.2	3.84	355.8	523.4	11.0
Signal #15	24.4	3.65	425.8	578.9	13.1
Signal #16	25.0	3.56	404.8	551.8	12.5
Signal #17	26.9	3.32	661.5	804.7	20.4
Signal #18	28.1	3.17	1097.0	1239.8	33.8
Signal #19	29.0	3.07	782.5	916.0	24.1
Signal #20	36.4	2.46	367.7	478.5	11.3

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized an XRPD signal at 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°20 and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, and 22.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, and 28.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°28; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.4 °2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2 °2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 16.8°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, or nineteen XRPD signals selected from those set forth in Table 28.

TABLE 28
Compound 1 monofumarate salt Form A(±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.1	8.76	526.5	604.7	11.5
Signal #2	13.4	6.61	1161.5	1264.6	25.3
Signal #3	14.0	6.31	1440.6	1549.3	31.3
Signal #4	15.6	5.68	794.9	923.3	17.3
Signal #5	15.9	5.57	2194.3	2328.4	47.7
Signal #6	16.8	5.28	460.0	602.8	10.0
Signal #7	18.4	4.82	665.3	834.4	14.5
Signal #8	18.9	4.69	900.1	1084.5	19.6
Signal #9	19.2	4.63	600.9	791.7	13.1
Signal #10	19.4	4.57	1721.6	1918.1	37.4
Signal #11	20.9	4.25	1037.9	1253.0	22.6
Signal #12	21.3	4.17	1321.5	1540.5	28.7
Signal #13	21.5	4.12	1318.8	1538.7	28.7
Signal #14	22.3	3.97	4597.3	4814.5	100.0
Signal #15	23.2	3.83	547.9	752.8	11.9
Signal #16	24.4	3.64	535.6	725.6	11.7
Signal #17	25.0	3.55	556.3	736.0	12.1
Signal #18	28.1	3.17	874.5	1045.8	19.0
Signal #19	29.0	3.07	714.6	878.3	15.5

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD at 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.0°2θ and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.0°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 16.0°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, 19.5°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, 19.5°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, 19.5°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.1°2θ, 16.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 16.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 16.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 16.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 16.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 16.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 16.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.5 °2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2 °2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5 °2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.2°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 10.2°2θ, 13.4°2θ, 14.1°2θ, 15.6°2θ, 16.0°2θ, 18.5°2θ, 19.0°2θ, 19.2°2θ, 19.5°2θ, 20.9°2θ, 21.4°2θ, 21.6°2θ, 22.4°2θ, 23.2°2θ, 24.5°2θ, 25.1°2θ, 28.2°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 29.

TABLE 29
Compound 1 monofumarate salt Form A
(±0.2 °2θ; ± 0.1 °2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity	Signal
number	2-θ (°)	Value	(counts)	(counts)	(%)	number
Signal	10.2	8.71	871.0	969.6	0.2	16.2
#1
Signal	13.4	6.58	1705.1	1833.2	0.3	31.7
#2
Signal	14.1	6.28	2032.9	2168.8	0.4	37.8
#3
Signal	15.6	5.66	1230.5	1385.6	0.2	22.9
#4
Signal	16.0	5.55	3225.3	3388.1	0.6	60.0
#5
Signal	18.5	4.80	959.6	1166.1	0.2	17.9
#6
Signal	19.0	4.67	1321.2	1544.0	0.2	24.6
#7
Signal	19.2	4.61	899.4	1129.3	0.2	16.7
#8
Signal	19.5	4.56	2150.2	2385.6	0.4	40.0
#9
Signal	20.9	4.24	1754.2	2009.8	0.3	32.6
#10
Signal	21.4	4.15	1857.8	2116.8	0.3	34.6
#11
Signal	21.6	4.11	1644.1	1903.6	0.3	30.6
#12
Signal	22.4	3.96	5375.6	5630.5	1.0	100.0
#13
Signal	23.2	3.83	678.4	918.8	0.1	12.6
#14
Signal	24.5	3.63	589.2	805.1	0.1	11.0
#15
Signal	25.1	3.55	866.1	1072.7	0.2	16.1
#16
Signal	28.2	3.17	973.5	1172.6	0.2	18.1
#17
Signal	29.1	3.06	1518.6	1710.8	0.3	28.2
#18

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by an XRPD signal at 22.4°2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 18.9°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.9°2θ, 19.1°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 18.9°2θ, 19.1°2θ, and 22.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.9°2θ, 19.1°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 18.9°2θ, 19.1°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 18.9°2θ, 19.1°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 18.9°2θ, 19.1°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 21.5°2θ, 22.4°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 21.5°2θ, 22.4°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 29.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.1 °2θ, 19.4°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.1 °2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form A characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9 °2θ, 19.1°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form

A characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.1°2θ, 19.4°2θ, 20.9°2θ, 21.3°2θ, 21.5°2θ, 22.4°2θ, 22.9°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline

In some embodiments, crystalline polymorphic Form A is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, or sixteen XRPD signals selected from those set forth in Table 30.

TABLE 30
Compound 1 monofumarate salt Form A (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal	13.4	6.61	833.0	926.2	14.5
#1
Signal	14.0	6.31	1165.8	1261.8	20.3
#2
Signal	15.6	5.69	1271.3	1382.6	22.1
#3
Signal	15.9	5.58	1547.7	1665.7	27.0
#4
Signal	18.4	4.82	824.3	993.7	14.4
#5
Signal	18.9	4.68	2414.0	2598.1	42.0
#6
Signal	19.1	4.65	2102.6	2289.6	36.6
#7
Signal	19.4	4.57	1374.1	1566.8	23.9
#8
Signal	20.9	4.25	823.6	1031.8	14.3
#9
Signal	21.3	4.16	856.1	1070.4	14.9
#10
Signal	21.5	4.13	1119.8	1335.4	19.5
#11
Signal	22.4	3.97	5742.6	5958.4	100.0
#12
Signal	22.9	3.87	848.2	1057.7	14.8
#13
Signal	25.0	3.55	586.0	769.3	10.2
#14
Signal	28.1	3.17	674.3	847.8	11.7
#15
Signal	29.1	3.07	1761.5	1926.7	30.7
#16

Calculated XRPD Profile of Crystalline Compound 1 Monofumarate Form A

In some embodiments, the crystalline compound 1 monofumarate Form A polymorph is characterized by a set of XRPD signals that are calculated. In some embodiments, the calculated set of XRPD signals is described in Table 115. A calculated XRPD profile for crystalline compound 1 monofumarate Form A is provided (FIG. 355) and is overlaid with an experimentally observed XRPD profile for crystalline compound 1 monofumarate Form A (FIG. 356).

TABLE 115
Calculated Crystalline Compound 1 Monofumarate XRPD signals
(±0.2 °2θ; ±0.1 °2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.3	8.61	1126.6	1139.1	11.5
Signal #2	13.6	6.53	2683.7	2720.5	27.4
Signal #3	14.2	6.23	3675.4	3715.5	37.5
Signal #4	15.7	5.62	1512.1	1550.0	15.4
Signal #5	16.0	5.53	4660.4	4697.7	47.5
Signal #6	18.8	4.72	1197.4	1238.8	12.2
Signal #7	19.3	4.60	2498.7	2550.3	25.5
Signal #8	19.5	4.54	2989.3	3044.4	30.5
Signal #9	21.2	4.18	2615.2	2686.7	26.7
Signal #10	21.7	4.09	3301.8	3377.4	33.7
Signal #11	22.7	3.91	9809.5	9879.0	100.0
Signal #12	23.4	3.80	1482.8	1536.3	15.1
Signal #13	24.8	3.59	1286.3	1315.4	13.1
Signal #14	25.3	3.52	983.5	1011.2	10.0
Signal #15	28.7	3.11	1676.0	1727.6	17.1
Signal #16	29.6	3.01	2058.9	2112.0	21.0

Compound 1 Form B Monofumarate Salt

In some embodiments, the compound 1 fumarate salt is Form B crystalline monofumarate polymorph. In some embodiments, the compound 1 monofumarate salt Form B is characterized by the XRPD signals set forth below in Table 31 or 32. In some embodiments, the compound 1 monofumarate salt Form B is characterized by the XRPD signals in FIG. 67. In some embodiments, the compound 1 monofumarate salt Form B is characterized by the XRPD signals in FIG. 5. In some embodiments, the compound 1 fumarate salt TGA spectrum is substantially similar to that shown in FIG. 78.

In some embodiments, the crystalline compound 1 monofumarate Form B Is a crystalline polymorphic form characterized by DSC having a melting signal at about 66.2° C. In some embodiments, the crystalline compound 1 monofumarate Form B Is a crystalline polymorphic form characterized by TGA having an onset at about 208.4° C.

In some embodiments, the crystalline compound 1 monofumarate Form B is a 1:1 compound:fumarate salt

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by an XRPD signal at of 19.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 17.8°2θ, and 19.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 19.5°2θ, and 20.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 17.8°2θ, 19.5°2θ, and 20.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 19.5°2θ, 20.3°2θ, and 23.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 17.8°2θ, 19.5°2θ, 20.3°2θ, and 23.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, and 23.6°2 0 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, and 23.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.1°2θ, 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, and 23.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 15.1°2θ, 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, and 23.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.5°2θ, 15.1°2θ, 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, and 23.6°2 0 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 9.5°2θ, 15.1°2θ, 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, and 23.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.5°2θ, 15.1°2θ, 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, 23.6°2θ, and 29.8°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 9.5°2θ, 15.1°2θ, 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, 23.6°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.9°2θ, 9.5°2θ, 15.1°2θ, 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, 23.6°2θ, and 29.8°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 5.9°2θ, 9.5°2θ, 15.1°2θ, 16.8°2θ, 17.8°2θ, 19.5°2θ, 20.3°2θ, 23.6°2θ, and 29.8°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form B is characterized by one, two, three, four, five, six, seven, eight, or nine XRPD signals selected from those set forth in Table 31.

TABLE 31
Signal angle data of Form B (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	5.9	15.08	55.5	278.2	11.9
Signal #2	9.5	9.34	75.3	242.5	16.2
Signal #3	15.1	5.87	107.8	393.0	23.2
Signal #4	16.8	5.26	218.1	551.5	47.0
Signal #5	17.8	4.98	414.7	769.8	89.3
Signal #6	19.5	4.54	464.1	843.6	100.0
Signal #7	20.3	4.36	345.3	730.3	74.4
Signal #8	23.6	3.77	340.2	708.2	73.3
Signal #9	29.8	3.00	74.1	318.7	16.0

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by an XRPD signal at 17.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 17.6°2θ and 19.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.6°2θ, 19.4°2θ, and 23.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 17.6°2θ, 19.4°2θ, and 23.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.6°2θ, 19.4°2θ, 23.5°2θ, and 24.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 17.6°2θ, 19.4°2θ, 23.5°2θ, and 24.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, and 24.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, and 24.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, and 29.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, and 29.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.7°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, and 29.5°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 13.7°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, and 29.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 13.7°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, and 29.5°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 9.4°2θ, 13.7°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, and 29.5°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 13.7°2θ, 14.9°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, and 29.5 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 9.4°2θ, 13.7°2θ, 14.9°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, and 29.5°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 13.6°2θ, 13.7°2θ, 14.9°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, 28.3°2θ, and 29.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 9.4°2θ, 13.6°2θ, 13.7°2θ, 14.9°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, 28.3°2θ, and 29.5°2θ (±0.2°28; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 13.6°2θ, 13.7°2θ, 14.9°2θ, 15.0°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, 28.3°2θ, and 29.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 9.4°2θ, 13.6°2θ, 13.7°2θ, 14.9°2θ, 15.0°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, 28.3°2θ, and 29.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 11.8°2θ, 13.6°2θ, 13.7°2θ, 14.9°2θ, 15.0°2θ, 16.7°2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, 28.3°2θ, and 29.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 monofumarate salt is crystalline polymorphic Form B characterized by XRPD signals at 9.4°2θ, 11.8°2θ, 13.6°2θ, 13.7°2θ, 14.9°2θ, 15.0°2θ, 16.7 °2θ, 17.6°2θ, 19.4°2θ, 23.5°2θ, 24.7°2θ, 24.9°2θ, 28.3°2θ, and 29.5°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Form B is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, or fourteen XRPD signals selected from those set forth in Table 32.

TABLE 32
Signal angle data of Form B (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%
Signal #1	9.4	9.42	98.8	209.9	22.9
Signal #2	11.8	7.51	43.5	177.3	10.1
Signal #3	13.6	6.53	72.9	241.4	16.9
Signal #4	13.7	6.44	109.5	283.5	25.4
Signal #5	14.9	5.93	96.6	302.1	22.4
Signal #6	15.0	5.91	67.0	273.7	15.5
Signal #7	16.7	5.30	264.5	515.9	61.3
Signal #8	17.6	5.02	431.5	705.7	100.0
Signal #9	19.4	4.56	420.1	725.7	97.4
Signal #10	23.5	3.79	375.0	685.9	86.9
Signal #11	24.7	3.60	282.0	576.6	65.3
Signal #12	24.9	3.58	248.8	540.7	57.7
Signal #13	28.3	3.15	71.0	308.9	16.5
Signal #14	29.5	3.03	111.1	329.4	25.8

Compound 1 Form I Hemi-Fumarate Salt

In some embodiments, the compound 1 salt is a crystalline hemi-fumarate Form I polymorph. In some embodiments, the compound 1 hemi-fumarate salt Form I is characterized by the XRPD signals set for the below in Table 33.

In some embodiments, the crystalline compound 1 hemi-fumarate Form I is a crystalline polymorphic form characterized by DSC having a melting signal at about 91.5° C. In some embodiments, the crystalline compound 1 hemi-fumarate Form I is a crystalline polymorphic form characterized by TGA having an onset at about 264.4° C.

In some embodiments, the compound 1 hemi-fumarate Form I salt is a 1:1 compound 1:fumarate salt.

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by an XRPD signal at 15.9°28 (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 15.9°2θ, and 21.0°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, and 21.0°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 15.9°2θ, 19.4°2θ, and 21.0°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.9°2θ, 19.4°2θ, 21.0°2θ, and 27.1°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 15.9°2θ, 19.4°2θ, 21.0°2θ, and 27.1°2θ (102°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.2°2θ, 15.9°2θ, 19.4°2θ, 21.0°2θ, and 27.1°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 15.2°2θ, 15.9°2θ, 19.4°2θ, 21.0°2θ, and 27.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.2°2θ, 15.9°2θ, 19.4°2θ, 21.0°2θ, 22.5°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 15.2°2θ, 15.9°2θ, 19.4°2θ, 21.0°2θ, 22.5 °2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 22.5°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 22.5°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 22.5°2θ, and 27.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 13.4°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 22.5°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.4°2θ, 13.7°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 22.5°2θ, and 27.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 13.4°2θ, 13.7 °2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 22.5°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.7°2θ, 13.4°2θ, 13.7°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 22.5°2θ, and 27.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 11.7°2θ, 13.4°2θ, 13.7°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 22.5°2θ, and 27.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.7°2θ, 13.4°2θ, 13.7°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 21.6°2θ, 22.5°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 11.7°2θ, 13.4°2θ, 13.7°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 21.6°2θ, 22.5°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.7°2θ, 13.4°2θ, 13.7°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 11.7°2θ, 13.4°2θ, 13.7°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 21.6°2θ, 22.5°2θ, 23.2°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic hemi-fumarate Form I is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, or twelve XRPD signals selected from those set forth in Table 33.

TABLE 33
Signal angle data of Form I (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	11.7	7.58	396.3	550.9	11.2
Signal #2	13.4	6.59	537.7	711.0	15.2
Signal #3	13.7	6.47	523.8	702.8	14.8
Signal #4	15.2	5.82	1058.1	1311.0	29.9
Signal #5	15.9	5.57	3537.4	3823.3	100.0
Signal #6	18.9	4.69	600.6	984.8	17.0
Signal #7	19.4	4.58	1172.9	1566.2	33.2
Signal #8	21.0	4.22	1658.6	2060.6	46.9
Signal #9	21.6	4.12	380.3	778.0	10.7
Signal #10	22.5	3.95	613.9	995.6	17.4
Signal #11	23.2	3.83	359.4	725.5	10.2
Signal #12	27.1	3.29	1088.3	1356.6	30.8

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Form I characterized by an XRPD signal at 16.0°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 16.0°2θ, and 21.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.0°2θ, 21.2°2θ, and 27.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 16.0°2θ, 21.2°2θ, and 27.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.0°2θ, 19.5°2θ, 21.2°2θ, and 27.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 16.0°2θ, 19.5°2θ, 21.2°2θ, and 27.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.4°2θ, 16.0°2θ, 19.5°2θ, 21.2°2θ, and 27.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 15.4°2θ, 16.0°2θ, 19.5 °2θ, 21.2°2θ, and 27.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.4°2θ, 16.0°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, and 27.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 15.4°2θ, 16.0°2θ, 19.5°2θ, 21.2°2θ, 22.6 °2θ, and 27.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, and 27.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, and 27.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, and 27.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, and 27.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, 27.2°2θ, and 30.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 13.7°2θ, 15.4 °2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, 27.2°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, 23.4°2θ, 27.2°2θ, and 30.4 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, 23.4°2θ, 27.2°2θ, and 30.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, 23.4°2θ, 25.0°2θ, 27.2°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 22.6°2θ, 23.4°2θ, 25.0°2θ, 27.2°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.7°2θ, 22.6°2θ, 23.4°2θ, 25.0°2θ, 27.2°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.7°2θ, 22.6°2θ, 23.4°2θ, 25.0°2θ, 27.2°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.7°2θ, 22.6°2θ, 23.4°2θ, 24.3°2θ, 25.0°2θ, 27.2°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.7°2θ, 22.6°2θ, 23.4°2θ, 24.3°2θ, 25.0°2θ, 27.2°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.7°2θ, 22.6°2θ, 23.4°2θ, 24.3°2θ, 25.0°2θ, 27.2°2θ, 28.5°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.7 °2θ, 22.6°2θ, 23.4°2θ, 24.3°2θ, 25.0°2θ, 27.2°2θ, 28.5°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.8°2θ, 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5°2θ, 21.2°2θ, 21.7°2θ, 22.6°2θ, 23.4°2θ, 24.3°2θ, 25.0°2θ, 27.2°2θ, 28.5°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form I characterized by XRPD signals at 11.8°2θ, 13.7°2θ, 15.4°2θ, 16.0°2θ, 19.2°2θ, 19.5 °2θ, 21.2°2θ, 21.7°2θ, 22.6°2θ, 23.4°2θ, 24.3°2θ, 25.0°2θ, 27.2°2θ, 28.5°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic hemi-fumarate Form I is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, or sixteen XRPD signals selected from those set forth in Table 34.

TABLE 34
Signal angle data of Form I (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	11.8	7.47	362.2	495.0	11.6
Signal #2	13.7	6.48	633.6	792.3	20.4
Signal #3	13.7	6.47	642.5	801.5	20.6
Signal #4	15.4	5.76	950.4	1142.3	30.5
Signal #5	16.0	5.53	3112.9	3322.2	100.0
Signal #6	19.2	4.62	765.7	1033.7	24.6
Signal #7	19.5	4.54	1450.4	1723.7	46.6
Signal #8	21.2	4.19	1975.0	2267.5	63.4
Signal #9	21.7	4.10	423.5	719.8	13.6
Signal #10	22.6	3.93	770.3	1066.4	24.7
Signal #11	23.4	3.79	481.9	769.3	15.5
Signal #12	24.3	3.66	413.8	684.4	13.3
Signal #13	25.0	3.56	440.0	690.2	14.1
Signal #14	27.2	3.27	1495.2	1749.4	48.0
Signal #15	28.5	3.13	376.5	627.2	12.1
Signal #16	30.4	2.94	497.6	707.9	16.0

Compound 1 Form II Fumarate Salt

In some embodiments, the compound 1 salt is a crystalline hemi-fumarate Form II polymorph. In some embodiments, the compound 1 hemi-fumarate salt Form II is characterized by the XRPD signals set for the below in Table 35. In some embodiments, the compound 1 hemi-fumarate salt Form II XRPD pattern is substantially similar to that shown in FIG. 7. In some embodiments, the compound 1 hemi-fumarate salt Form II ¹H-NMR spectrum is substantially similar to that shown in FIG. 56 or 57. In some embodiments, the compound 1 hemi-fumarate Form II salt TGA spectrum is substantially similar to that shown in FIG. 59.

In some embodiments, the crystalline compound 1 hemi-fumarate Form II is a crystalline polymorphic form characterized by DSC having a melting signal at 97.2° C. In some embodiments, the crystalline compound 1 hemi-fumarate Form II Is a crystalline polymorphic form characterized by DSC having an associated enthalpy of 246.4° C.

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by an XRPD signal at 15.8° (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 15.8°2θ and 20.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.8°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 15.8°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.8°2θ, 19.2°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 15.8°2θ, 19.2°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.1°2θ, 15.8°2θ, 19.2°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 15.1°2θ, 15.8°2θ, 19.2°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.1°2θ, 15.8°2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 15.1°2θ, 15.8°2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, 26.9°2θ, and 30.2°2θ (±0.2°2θ; 00.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 15.1°2θ, 15.8°2θ, 18.8 °2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, 26.9°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, 26.9°2θ, and 30.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 13.3°2θ, 15.1 °2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, 26.9°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, 24.7°2θ, 26.9°2θ, and 30.2 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 13.3°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 22.4°2θ, 24.7°2θ, 26.9°2θ, and 30.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 24.7°2θ, 26.9°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 13.3°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 24.7°2θ, 26.9°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 13.3°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 13.5°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 13.3°2θ, 13.5°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9 °2θ, 21.4°2θ, 22.4°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.3°2θ, 13.5°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 23.1°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 13.3°2θ, 13.5°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9 °2θ, 21.4°2θ, 22.4°2θ, 23.1°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.5°2θ, 13.3°2θ, 13.5°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 23.1°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 11.5°2θ, 13.3°2θ, 13.5°2θ, 15.1°2θ, 15.8°2θ, 18.8 °2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 23.1°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.5°2θ, 13.3°2θ, 13.5°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 23.1°2θ, 24.0°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 hemi-fumarate salt is crystalline polymorphic Form II characterized by XRPD signals at 11.5°2θ, 13.3°2θ, 13.5°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 23.1°2θ, 24.0°2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic hemi-fumarate Form II is characterized by one, two, three, four, five, six, seven, eight, or nine XRPD signals selected from those set forth in Table 35.

TABLE 35
Signal angle data of Form II (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	11.5	7.66	194.5	253.7	11.8
Signal #2	13.3	6.66	224.6	283.6	13.6
Signal #3	13.5	6.54	208.8	268.5	12.6
Signal #4	15.1	5.87	501.5	579.0	30.3
Signal #5	15.8	5.62	1653.8	1737.1	100.0
Signal #6	18.8	4.72	318.4	414.1	19.3
Signal #7	19.2	4.61	717.1	814.7	43.4
Signal #8	20.9	4.25	1133.9	1234.5	68.6
Signal #9	21.4	4.14	215.3	317.8	13.0
Signal #10	22.4	3.97	458.2	563.5	27.7
Signal #11	23.1	3.85	208.3	312.7	12.6
Signal #12	24.0	3.71	176.4	273.7	10.7
Signal #13	24.7	3.60	219.7	305.7	13.3
Signal #14	26.9	3.31	726.9	822.0	44.0
Signal #15	28.2	3.16	215.2	312.5	13.0
Signal #16	30.2	2.96	249.3	330.5	15.1

Compound 1 Fumarate Salt: Pattern 3a

In some embodiments, the compound 1 fumarate salt is Pattern 3a crystalline polymorph. In some embodiments, the Pattern 3a crystalline polymorph is characterized by the XRPD signals set for the below in Table 36 or 37. In some embodiments, the Pattern 3a crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 68 or 70.

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by an XRPD signal at 23.9°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 17.9°20 and 23.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.9°2θ, 19.7°2θ, and 23.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 17.9°2θ, 19.7°2θ, and 23.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.9°2θ, 19.7°2θ, 20.5°2θ, and 23.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 17.9°2θ, 19.7°2θ, 20.5°2θ, and 23.9°2θ (102°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, and 24.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, and 24.9°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, and 25.2°2θ (10.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.9°2θ, 16.9°2θ, 17.9°2θ, 19.7′28, 20.5°2θ, 23.9°2θ, 24.9°2θ, and 25.2°2θ (10.2°2θ; 10.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 13.9°2θ, 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, and 25.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.9°2θ, 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, 25.2°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 13.9°2θ, 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, 25.2°2θ, and 29.8°2θ (±0.2°2θ; 10.1 °2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.9°2θ, 15.2°2θ, 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, 25.2°2θ, and 29.8 °2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 13.9°2θ, 15.2°2θ, 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, 25.2°2θ, and 29.8°2θ (±0.2 °2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.9°2θ, 15.2°2θ, 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, 25.2°2θ, 28.5°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 13.9°2θ, 15.2°2θ, 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, 25.2°2θ, 28.5°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.6°2θ, 13.9°2θ, 15.2°2θ, 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, 25.2°2θ, 28.5°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 9.6°2θ, 13.9°2θ, 15.2°2θ, 16.9°2θ, 17.9°2θ, 19.7°2θ, 20.5°2θ, 23.9°2θ, 24.9°2θ, 25.2°2θ, 28.5°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Pattern 3a is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, or twelve XRPD signals selected from those set forth in Table 36.

TABLE 36
Signal angle data of Pattern #3a (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #2	9.6	9.22	120.7	278.0	13.3
Signal #6	13.9	6.35	281.2	532.2	31.1
Signal #7	15.2	5.83	179.0	451.4	19.8
Signal #8	16.9	5.24	302.2	623.0	33.4
Signal #9	17.9	4.95	836.9	1191.4	92.4
Signal #10	19.7	4.51	689.3	1085.0	76.1
Signal #11	20.5	4.33	531.8	939.2	58.7
Signal #12	23.9	3.73	905.6	1309.3	100.0
Signal #13	24.9	3.57	452.6	838.1	50.0
Signal #14	25.2	3.53	400.2	778.8	44.2
Signal #15	28.5	3.13	130.4	469.6	14.4
Signal #16	29.8	2.99	272.1	594.7	30.0

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by an XRPD signal at 19.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 18.1°2θ, and 19.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.1°2θ, 19.8°2θ, and 19.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 18.1°2θ, 19.8°2θ, and 19.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.1°2θ, 19.8°2θ, 19.9°2θ, and 24.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 18.1°2θ, 19.8°2θ, 19.9°2θ, and 24.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.1°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 18.1°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.6°2θ, 18.1°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 17.6°2θ, 18.1°2θ, 19.8°2θ, 19.9°2θ, 23.6 °2θ, and 24.0′28 (10.2′28; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (10.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0′28, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (±0.2°2θ; 10.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (±0.2 °2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 14.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0 °2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, and 24.0°2θ (±0.2 °2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, and 28.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, and 28.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 28.3°2θ, and 30.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 28.3°2θ, and 30.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 25.7°2θ, 28.3°2θ, and 30.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 25.7°2θ, 28.3°2θ, and 30.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.5°2θ, 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 25.7°2θ, 28.3°2θ, and 30.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 9.5°2θ, 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0 °2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 25.7°2θ, 28.3°2θ, and 30.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.5°2θ, 11.9°2θ, 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 25.7°2θ, 28.3°2θ, and 30.0°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by XRPD signals at 9.5°2θ, 11.9°2θ, 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6 °2θ, 18.1 °2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 25.7°2θ, 28.3°2θ, and 30.0°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 3a characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.5°2θ, 11.9°2θ, 14.1°2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 25.7°2θ, 28.3°2θ, 30.0°2θ, and 31.7°2θ (10.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic

In some embodiments, crystalline polymorphic Pattern 3a is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 37.

TABLE 37
Signal angle data of 3a (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	9.5	9.32	103.8	675.8	13.9
Signal #2	11.9	7.42	100.1	711.3	13.4
Signal #3	14.1	6.28	164.5	845.0	22.0
Signal #4	15.1	5.85	164.5	874.9	22.0
Signal #5	16.8	5.26	246.2	1007.3	32.9
Signal #6	17.6	5.02	378.0	1158.8	50.5
Signal #7	18.1	4.89	717.6	1508.4	95.8
Signal #8	19.0	4.66	342.8	1147.4	45.8
Signal #9	19.8	4.47	749.1	1561.2	100.0
Signal #10	19.9	4.45	676.1	1488.8	90.2
Signal #11	23.6	3.76	482.6	1276.6	64.4
Signal #12	24.0	3.71	606.7	1395.2	81.0
Signal #13	25.7	3.46	139.3	888.4	18.6
Signal #14	28.3	3.16	158.3	868.8	21.1
Signal #15	30.0	2.98	141.5	826.4	18.9
Signal #16	31.7	2.82	102.1	747.4	13.6
Signal #17	31.7	2.82	98.6	741.8	13.2

Compound 1 Fumarate Salt: Pattern 5

In some embodiments, the compound 1 fumarate salt is Pattern 5 crystalline polymorph. In some embodiments, the Pattern 5 crystalline polymorph is characterized by the XRPD signals set for the below in Table 38. In some embodiments, the Pattern 5 crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 1. In some embodiments, the Pattern 5 crystalline polymorph ¹H-NMR spectrum is substantially similar to that shown in FIG. 39. In some embodiments, the Pattern 5 crystalline polymorph TGA spectrum is substantially similar to that shown in FIG. 40.

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 5 characterized by an XRPD signal at 7.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 5 characterized by XRPD signals at 7.9°2θ and 21.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 5 characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.9°2θ, 20.2°2θ, and 21.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 5 characterized by XRPD signals at 7.9°2θ, 20.2°2θ, and 21.6°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 5 characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.9°2θ, 20.2°2θ, 21.6°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 5 characterized by XRPD signals at 7.9°2θ, 20.2°2θ, 21.6°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 5 characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.9°2θ, 15.7°2θ, 20.2°2θ, 21.6°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern characterized by XRPD signals at 7.9°2θ, 15.7°2θ, 20.2°2θ, 21.6°2θ, and 23.7°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Pattern 5 is characterized by one, two, three, four, or five XRPD signals selected from those set forth in Table 38.

TABLE 38
Signal angle data of Compound 1 Pattern 5 Fumarate Salt (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	7.9	11.25	36879.1	37068.4	100.0
Signal #2	15.7	5.63	4937.8	5117.8	13.4
Signal #3	20.2	4.39	8240.2	8524.7	22.3
Signal #4	21.6	4.11	8758.6	9090.9	23.7
Signal #5	23.7	3.76	6271.1	6582.0	17.0

Compound 1 Fumarate—Pattern 6

In some embodiments, the compound 1 fumarate salt is Pattern 6 crystalline polymorph. In some embodiments, the Pattern 6 crystalline polymorph is characterized by the XRPD signals set for the below in Table 39. In some embodiments, the Pattern 6 crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 71.

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by an XRPD signal at 19.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°20 and 19.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 19.3°2θ, and 20.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 19.3°2θ, and 20.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 19.3°2θ, 20.2°2θ, and 21.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 19.3°2θ, 20.2°2θ, and 21.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, and 23.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, and 23.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, 23.2°2θ, and 23.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, 23.2°2θ, and 23.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, 23.2°2θ, and 23.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, 23.2°2θ, and 23.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, 23.2°2θ, and 23.8°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, 23.2°2θ, and 23.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, 23.2°2θ, and 23.8°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 14.9 °2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 21.7°2θ, 23.2°2θ, and 23.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 23.2°2θ, and 23.8 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3 °2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 23.2°2θ, and 23.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 23.2°2θ, 23.8°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 23.2°2θ, 23.8°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 13.4°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7 °2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 13.4°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4°2θ, 14.9°2θ, 18.4°2θ, 19.3°2θ, 20.2 °2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 13.4°2θ, 14.9°2θ, 16.7°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4°2θ, 14.9°2θ, 16.7°2θ, 18.4°2θ, 19.3 °2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7 °2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, 29.1°2θ, and 29.8°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4 °2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2 °2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, 29.1°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 17.2°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, 29.1°2θ, and 29.8 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3 °2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 17.2°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7 °2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, 29.1°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by two or more, or three or more XRPD signals selected from the group consisting of 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 17.2°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, 27.6°2θ, 29.1°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 fumarate salt is crystalline polymorphic Pattern 6 characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4°2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 17.2°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4°2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, 27.6°2θ, 29.1°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Pattern 6 is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, twenty, or twenty-one XRPD signals selected from those set forth in Table 39.

TABLE 39
Crystalline compound 1 fumarate pattern 6 XRPD signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal			Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	8.2	10.83	1218.4	1356.9	86.3
Signal #2	12.3	7.17	604.7	762.0	42.8
Signal #3	13.4	6.61	262.3	441.1	18.6
Signal #4	13.9	6.35	229.6	417.8	16.3
Signal #5	14.9	5.94	553.3	751.8	39.2
Signal #6	16.7	5.29	253.0	511.7	17.9
Signal #7	17.2	5.16	154.3	428.8	10.9
Signal #8	18.4	4.82	633.2	944.9	44.9
Signal #9	19.3	4.60	1411.6	1743.2	100.0
Signal #10	20.2	4.39	1172.5	1517.9	83.1
Signal #11	20.9	4.24	331.0	682.0	23.4
Signal #12	21.7	4.09	860.6	1212.8	61.0
Signal #13	22.4	3.97	294.4	643.5	20.9
Signal #14	23.2	3.82	695.7	1035.9	49.3
Signal #15	23.8	3.74	682.1	1013.9	48.3
Signal #16	24.4	3.65	227.3	546.0	16.1
Signal #17	25.1	3.55	203.8	505.8	14.4
Signal #18	26.1	3.41	315.5	595.7	22.3
Signal #19	27.6	3.23	146.0	389.1	10.3
Signal #20	29.1	3.07	260.8	461.9	18.5
Signal #21	29.8	3.00	187.4	376.3	13.3

Compound 1 HCl Salt

In some embodiments, the compound 1 salt is a compound 1 HCl salt. In some embodiments, the compound 1 HCl salt is amorphous. In some embodiments, the compound 1 HCl salt is crystalline. In some embodiments, the compound 1 HCl salt is a 1:1 compound 1:HCl salt. In some embodiments, the compound 1 HCl salt is a 2:1 compound 1:HCl salt.

Amorphous Compound 1 HCl Salts

In some embodiments, the compound 1 HCl salt is an amorphous compound 1 HCl salt characterized by a glass temperature (Tg) of about 37° C. In some embodiments, the amorphous compound 1 HCl salt is characterized by a XRPD pattern that is substantially similar to that shown in FIG. 369. In some embodiments, the amorphous compound 1 HCl salt is characterized by a DSC profile that is substantially similar to that shown in any one of FIG. 373. In some embodiments, the amorphous compound 1 HCl salt is characterized by a TGA profile that is substantially similar to that shown in any one of FIG. 377. In some embodiments, the amorphous compound 1 HCl salt is characterized by a ¹H NMR spectrum that is substantially similar to that shown in FIG. 368.

Crystalline Compound 1 HCl Salts

In some embodiments, the compound 1 HCl salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is a compound 1 HCl Form A polymorph. In some embodiments, the crystalline polymorph is a compound 1 HCl Form B polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Tables 40-42 or 123-126. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 167, 196, 220, or 391. In some embodiments, the crystalline polymorph ¹H-NMR spectrum is substantially similar to that shown in FIG. 189. In some embodiments, the crystalline polymorph DVS is substantially similar to that shown in FIG. 191. In some embodiments, the crystalline polymorph TGA spectrum is substantially similar to that shown in FIG. 195, 218, or 222. In some embodiments, the crystalline compound 1 HCl DSC spectrum is substantially similar to that shown in any one of FIG. 190, 217, or 221.

In some embodiments, the crystalline compound 1 HCl is a crystalline polymorphic form, e.g., Form A, characterized by DSC having an onset at about 200.03° C. ° C. In some embodiments, the crystalline compound 1 fumarate Form A is a crystalline polymorphic form characterized by TGA having an onset at about 243.1° C.

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by an XRPD signal at 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 21.7°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 21.7°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 18.0°2θ, 21.7°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 18.0°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 18.0°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.8°2θ, 18.0°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ(±0.2°28; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.8°2θ, 18.0°2θ, 18.6 °2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.8°2θ, 18.0°2θ, 18.6 °2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, and 29.0°2θ(10.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, and 29.0 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4 °2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, and 29.0°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (102°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0 °2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 15.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.5°2θ, 15.3°2θ, 17.5°2θ, 17.8°2θ, 18.0 °2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 15.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 28.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.5°2θ, 15.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 28.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 14.2°2θ, 15.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 28.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.5°2θ, 14.2°2θ, 15.3 °2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9 °2θ, 27.3°2θ, 28.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 14.2°2θ, 15.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 28.0°2θ, 28.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.5°2θ, 14.2°2θ, 15.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 28.0°2θ, 28.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.5°2θ, 14.2°2θ, 15.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.3°2θ, 28.0°2θ, 28.4°2θ, 29.0°2θ, 30.3°2θ, and 32.2 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, or twenty XRPD signals selected from those set forth in Table 40.

TABLE 40
Crystalline compound 1 HCl XRPD Form A signals (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation).
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	12.4	7.15	997.6	1051.0	61.6
Signal #2	13.5	6.53	592.0	648.2	36.6
Signal #3	14.2	6.22	177.2	229.8	10.9
Signal #4	15.3	5.78	186.5	236.2	11.5
Signal #5	17.5	5.06	356.2	410.8	22.0
Signal #6	17.8	4.98	1166.0	1223.1	72.0
Signal #7	18.0	4.92	1255.0	1313.7	77.5
Signal #8	18.6	4.76	1145.3	1206.2	70.8
Signal #9	20.0	4.45	446.4	508.9	27.6
Signal #10	20.4	4.34	358.6	423.1	22.2
Signal #11	21.7	4.09	1350.4	1413.9	83.4
Signal #12	24.9	3.58	1618.4	1693.7	100.0
Signal #13	25.5	3.50	612.2	690.3	37.8
Signal #14	25.9	3.44	801.7	880.2	49.5
Signal #15	27.3	3.26	531.1	613.3	32.8
Signal #16	28.0	3.18	173.8	259.7	10.7
Signal #17	28.4	3.14	183.1	269.4	11.3
Signal #18	29.0	3.08	1224.2	1309.0	75.6
Signal #19	30.3	2.95	398.8	472.4	24.6
Signal #20	32.2	2.78	162.7	220.8	10.1

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by an XRPD signal at 18.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 18.1°20 and 21.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 18.1°2θ, and 21.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.8°2θ, 18.1°2θ, and 21.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 18.1°2θ, 21.7°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.8°2θ, 18.1°2θ, 21.7°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 18.1°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.8°2θ, 18.1°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 18.1°2θ, 18.7°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.8°2θ, 18.1°2θ, 18.7°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.8°2θ, 18.1°2θ, 18.7 °2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4 °2θ, 13.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0 °2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5 °2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7 °2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 15.3°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 15.3°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 12.4°2θ, 13.6°2θ, 15.3°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 6.4°2θ, 12.4°2θ, 13.6°2θ, 15.3 °2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5 °2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 12.4°2θ, 13.6°2θ, 15.3°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, 30.1°2θ, and 30.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 6.4°2θ, 12.4°2θ, 13.6°2θ, 15.3°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, 30.1°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, or nineteen XRPD signals selected from those set forth in Table 41.

TABLE 41
Crystalline compound 1 Form A HCl XRPD signals (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	6.4	13.90	229.6	376.1	10.2
Signal #2	12.4	7.14	1064.3	1145.9	47.1
Signal #3	13.6	6.52	504.4	585.1	22.3
Signal #4	15.3	5.77	246.8	316.6	10.9
Signal #5	17.6	5.05	465.8	540.2	20.6
Signal #6	17.8	4.97	1754.3	1832.6	77.7
Signal #7	18.1	4.91	2258.6	2339.8	100.0
Signal #8	18.7	4.75	1128.1	1213.9	49.9
Signal #9	20.0	4.44	606.5	695.9	26.9
Signal #10	20.5	4.33	499.2	588.5	22.1
Signal #11	21.7	4.09	1883.4	1966.3	83.4
Signal #12	23.1	3.85	281.4	365.0	12.5
Signal #13	24.9	3.57	1364.6	1464.1	60.4
Signal #14	25.5	3.49	297.3	397.3	13.2
Signal #15	25.9	3.44	946.9	1045.3	41.9
Signal #16	27.4	3.25	531.4	627.4	23.5
Signal #17	29.0	3.08	1378.2	1476.4	61.0
Signal #18	30.1	2.97	215.2	307.2	9.5
Signal #19	30.3	2.95	258.8	349.8	11.5

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by an XRPD at 18.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 18.1°2θ and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 18.1°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 18.1°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 18.1°2θ, 21.8°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 18.1°2θ, 21.8°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, and 25.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, and 25.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7 °2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, 25.9°28, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4 °2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.9°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.9°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.9°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.9°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7 °2θ, 20.0°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6 °2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1 °2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 12.8°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 42.

TABLE 42
Crystalline compound 1 Form A HCl XRPD signals (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	12.4	7.12	5423.8	5508.1	85.0
Signal #2	12.8	6.92	912.2	1000.4	14.3
Signal #3	13.6	6.50	1573.4	1662.5	24.7
Signal #4	17.6	5.04	889.5	984.1	13.9
Signal #5	17.9	4.96	1853.6	1953.2	29.0
Signal #6	18.1	4.90	6381.3	6483.4	100.0
Signal #7	18.7	4.74	1898.7	2003.9	29.8
Signal #8	20.0	4.43	763.8	865.4	12.0
Signal #9	20.5	4.33	641.1	737.4	10.0
Signal #10	21.8	4.08	3020.6	3118.6	47.3
Signal #11	23.1	3.84	856.4	956.5	13.4
Signal #12	24.9	3.57	5686.6	5817.0	89.1
Signal #13	25.5	3.49	703.0	837.8	11.0
Signal #14	25.9	3.44	1773.3	1908.1	27.8
Signal #15	27.4	3.25	645.9	774.1	10.1
Signal #16	29.0	3.07	1730.4	1850.8	27.1
Signal #17	30.4	2.94	802.0	907.1	12.6

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized an XRPD signal at 18.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 18.0°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.8°2θ, 18.0°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.8°2θ, 18.0°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 17.8°2θ, 18.0°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 17.8°2θ, 18.0°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 17.8°2θ, 18.0°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 17.8°2θ, 18.0°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 17.8°2θ, 18.0°2θ, 24.8°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 17.8°2θ, 18.0°2θ, 24.8°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 24.8°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 24.8°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 17.5°2θ, 17.8°2θ, 18.0 °2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, and 29.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, and 29.0 °2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3 °2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.3°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0°2θ, 20.4°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, 29.0°2θ, 30.3°2θ, and 34.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.3°2θ, 13.5°2θ, 17.5°2θ, 17.8°2θ, 18.0°2θ, 18.6°2θ, 20.0 °2θ, 20.4°2θ, 21.7°2θ, 24.8°2θ, 25.8°2θ, 27.3°2θ, 29.0°2θ, 30.3°2θ, and 34.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, or fifteen XRPD signals selected from those set forth in Table 123.

TABLE 123
Crystalline Compound 1 HCl Form A XRPD signals (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross
Signal		d	Intensity	Intensity	Rel.
number	2-θ (°)	Value	(counts)	(counts)	Intensity
Signal #1	12.3	7.16	945.3	993.8	34.1
Signal #2	13.5	6.54	409.1	456.4	14.8
Signal #3	17.5	5.06	852.4	905.5	30.8
Signal #4	17.8	4.98	1125.8	1182.2	40.6
Signal #5	18.0	4.92	2771.3	2829.9	100.0
Signal #6	18.6	4.76	641.5	703.1	23.1
Signal #7	20.0	4.45	499.5	561.3	18.0
Signal #8	20.4	4.35	378.4	438.3	13.7
Signal #9	21.7	4.10	811.7	869.3	29.3
Signal #10	24.8	3.58	868.5	943.1	31.3
Signal #11	25.8	3.45	887.3	961.0	32.0
Signal #12	27.3	3.26	485.6	556.7	17.5
Signal #13	29.0	3.08	1809.7	1885.0	65.3
Signal #14	30.3	2.95	293.2	361.2	10.6
Signal #15	34.4	2.60	292.0	350.2	10.5

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized a XRPD signal at 18.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 18.2°2θ and 25.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.2°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 18.2°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.2°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 18.2°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.9°2θ, 18.2°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.9°2θ, 18.2°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.9°2θ, 18.2°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 12.9°2θ, 18.2°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2 °2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ. Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 26.0°2θ, and 29.1°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 26.0°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 26.0°2θ, and 29.1 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 26.0°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 26.0°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 26.0°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4 °2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 25.6°2θ, 26.0 °2θ, and 29.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 29.1°2θ, and 34.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 25.6 °2θ, 26.0°2θ, 29.1°2θ, and 34.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 29.1°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 20.6°2θ, 21.9°2θ, 25.0 °2θ, 25.6°2θ, 26.0°2θ, 29.1°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 29.1°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 29.1°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 29.1°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 29.1°2θ, 34.6°2θ, and 37.8°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2 °2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 29.1°2θ, 32.4°2θ, 34.6 °2θ, and 37.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 28.6°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9 °2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 28.6 °2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 17.8°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 28.6°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9 °2θ, 17.8°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0 °2θ, 28.6°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 17.8°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 27.6°2θ, 28.6°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 17.8°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 27.6°2θ, 28.6°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 17.8°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.1°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 27.6°2θ, 28.6°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 17.8°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.1°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 27.6°2θ, 28.6°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, twenty, or twenty-one XRPD signals selected from those set forth in Table 124.

TABLE 124
Crystalline Compound 1 HCl Form B XRPD signals (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	6.4	13.74	557.1	685.3	17.4
Signal #2	6.5	13.59	606.8	733.5	18.9
Signal #3	12.5	7.06	695.3	774.8	21.7
Signal #4	12.9	6.86	866.4	947.3	27.0
Signal #5	17.8	4.99	387.4	466.1	12.1
Signal #6	18.0	4.92	670.4	753.0	20.9
Signal #7	18.2	4.87	3205.8	3290.5	100.0
Signal #8	18.8	4.72	450.4	539.4	14.0
Signal #9	20.1	4.41	331.2	421.3	10.3
Signal #10	20.6	4.30	668.6	757.0	20.9
Signal #11	21.9	4.06	951.4	1037.9	29.7
Signal #12	23.2	3.82	432.5	521.0	13.5
Signal #13	25.0	3.55	1538.0	1646.9	48.0
Signal #14	25.6	3.47	548.1	657.9	17.1
Signal #15	26.0	3.42	1311.6	1419.7	40.9
Signal #16	27.6	3.23	382.9	484.6	11.9
Signal #17	28.6	3.12	393.4	493.6	12.3
Signal #18	29.1	3.06	612.6	706.9	19.1
Signal #19	32.4	2.76	395.3	480.3	12.3
Signal #20	34.6	2.59	513.3	598.2	16.0
Signal #21	37.8	2.38	466.9	545.6	14.6

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized a XRPD signal at 18.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 18.3°2θ and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 18.3°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 18.0°2θ, 18.3°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 18.3°2θ, 25.0°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 18.0°2θ, 18.3°2θ, 25.0°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 18.0°2θ, 18.3°2θ, 25.0°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 18.0°2θ, 18.3°2θ, 25.0°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.6°2θ, 18.0°2θ, 18.3°2θ, 25.0°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 12.6°2θ, 18.0°2θ, 18.3°2θ, 25.0°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 25.0°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 25.0°2θ, and 25.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 25.0°2θ, 25.1°2θ, and 39.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0 °2θ, 18.3°2θ, 25.0°2θ, 25.1°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, and 39.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, and 39.2 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, and 39.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, 29.2°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 12.5 °2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, 29.2°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, 29.2°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.7 °2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, 29.2 °2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, 29.2°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, 29.2°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 27.6°2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1 °2θ, 27.6°2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 26.1°2θ, 27.6°2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0 °2θ, 25.0°2θ, 25.1°2θ, 26.1°2θ, 27.6°2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 26.0°2θ, 26.1°2θ, 27.6°2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 22.0 °2θ, 25.0°2θ, 25.1°2θ, 26.0°2θ, 26.1°2θ, 27.6°2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 18.9°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 26.0°2θ, 26.1°2θ, 27.6°2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 18.0°2θ, 18.3°2θ, 18.9°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 26.0°2θ, 26.1°2θ, 27.6°2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0°2θ, 13.9°2θ, 18.0°2θ, 18.3°2θ, 18.9°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 26.0°2θ, 26.1°2θ, 27.6°2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form B polymorph characterized by XRPD signals at 6.7°2θ, 12.5°2θ, 12.6°2θ, 13.0 °2θ, 13.9°2θ, 18.0°2θ, 18.3°2θ, 18.9°2θ, 22.0°2θ, 25.0°2θ, 25.1°2θ, 26.0°2θ, 26.1°2θ, 27.6 °2θ, 29.2°2θ, 30.6°2θ, 32.5°2θ, and 39.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 125.

TABLE 125
Crystalline Compound 1 HCl Form B XRPD signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	6.7	13.26	725.9	814.9	24.8
Signal #2	12.5	7.10	1141.3	1214.3	39.0
Signal #3	12.6	7.02	1096.8	1171.4	37.5
Signal #4	13.0	6.80	931.4	1009.9	31.9
Signal #5	13.9	6.39	311.2	391.5	10.6
Signal #6	18.0	4.94	1333.1	1405.3	45.6
Signal #7	18.3	4.84	2923.0	2999.0	100.0
Signal #8	18.9	4.68	397.2	476.3	13.6
Signal #9	22.0	4.04	757.0	828.5	25.9
Signal #10	25.0	3.56	1292.2	1393.2	44.2
Signal #11	25.1	3.54	1715.1	1818.7	58.7
Signal #12	26.0	3.43	405.0	516.3	13.9
Signal #13	26.1	3.41	480.6	592.5	16.4
Signal #14	27.6	3.22	838.7	951.9	28.7
Signal #15	29.2	3.05	743.9	850.1	25.5
Signal #16	30.6	2.92	551.3	648.2	18.9
Signal #17	32.5	2.76	614.5	696.6	21.0
Signal #18	39.2	2.30	845.3	915.1	28.9

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by a XRPD signal at 18.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 18.1°2θ, and 21.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.9°2θ, 18.1°2θ, and 21.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.9°2θ, 18.1°2θ, and 21.8°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.9°2θ, 18.1°2θ, 21.8°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.9°2θ, 18.1°2θ, 21.8°2θ, and 24.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.9°2θ, 18.1°2θ, 21.8°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.9°2θ, 18.1°2θ, 21.8°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7 °2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4 °2θ, 13.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (10.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; 10.1°20; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (102°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, and 29.0°2θ (±0.2°2θ; 10.1°20; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (10.2°2θ; 10.1°20; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6 °2θ, 17.9°2θ, 18.1°2θ, 18.7 °2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, 28.5°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6°2θ, 17.9°2θ, 18.1 °2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.9°2θ, 27.4°2θ, 28.5°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 28.5°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 28.5°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 28.5°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6 °2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9 °2θ, 27.4°2θ, 28.5°2θ, 29.0°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5 °2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 28.5°2θ, 29.0°2θ, 30.1°2θ, and 30.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HCl salt is a crystalline Form A polymorph characterized by XRPD signals at 12.4°2θ, 13.6°2θ, 15.4°2θ, 17.6°2θ, 17.9°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.8°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 28.5°2θ, 29.0°2θ, 30.1°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°20; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, or nineteen XRPD signals selected from those set forth in Table 126.

TABLE 126
Crystalline Compound 1 HCl Form A XRPD signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	12.4	7.12	873.8	939.5	54.4
Signal #2	13.6	6.51	451.8	519.6	28.1
Signal #3	15.4	5.76	213.0	277.9	13.3
Signal #4	17.6	5.04	444.6	521.5	27.7
Signal #5	17.9	4.96	1536.3	1618.6	95.7
Signal #6	18.1	4.90	1605.9	1691.9	100.0
Signal #7	18.7	4.74	974.0	1068.1	60.7
Signal #8	20.0	4.43	466.8	568.0	29.1
Signal #9	20.5	4.33	328.2	428.2	20.4
Signal #10	21.8	4.08	1568.5	1663.9	97.7
Signal #11	23.1	3.84	188.4	279.0	11.7
Signal #12	24.9	3.57	1411.8	1521.1	87.9
Signal #13	25.5	3.49	210.9	323.6	13.1
Signal #14	25.9	3.44	822.4	935.9	51.2
Signal #15	27.4	3.25	466.6	581.2	29.1
Signal #16	28.5	3.13	212.1	326.3	13.2
Signal #17	29.0	3.07	1312.1	1422.8	81.7
Signal #18	30.1	2.96	188.3	286.9	11.7
Signal #19	30.3	2.95	241.5	337.6	15.0

Calculated XRPD profile of Crystalline Compound 1 HCl Salt Form A In some embodiments, the crystalline compound 1 HCl salt is characterized by a set of XRPD signals that are calculated. In some embodiments, the calculated set of XRPD signals is described in Table 114. A calculated XRPD profile for crystalline compound 1 HCl salt is provided (FIG. 353) and is overlaid with an experimentally observed XRPD profile for crystalline compound 1 HCl salt (FIG. 354).

TABLE 114
Calculated Crystalline Compound 1 Form A HCl XRPD signals (±0.2
°2θ; ±0.1 °2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	6.4	13.75	1619.4	1633.5	16.6
Signal #2	12.5	7.10	4605.9	4645.5	47.1
Signal #3	13.7	6.48	2941.3	2986.8	30.1
Signal #4	15.4	5.73	1198.2	1221.5	12.3
Signal #5	17.7	5.02	2805.6	2858.3	28.7
Signal #6	18.0	4.94	8170.4	8229.6	83.6
Signal #7	18.2	4.86	8984.2	9047.9	91.9
Signal #8	18.8	4.71	6186.9	6254.6	63.3
Signal #9	20.2	4.40	2901.3	2970.4	29.7
Signal #10	20.7	4.29	2536.0	2610.0	25.9
Signal #11	21.9	4.05	9775.1	9851.1	100.0
Signal #12	25.1	3.55	8181.6	8272.5	83.7
Signal #13	25.7	3.47	1700.3	1795.3	17.4
Signal #14	26.1	3.41	6545.6	6638.8	67.0
Signal #15	27.5	3.24	2577.1	2668.1	26.4
Signal #16	27.7	3.22	2483.7	2579.4	25.4
Signal #17	28.3	3.15	1085.9	1189.6	11.1
Signal #18	28.7	3.11	1326.3	1431.9	13.6
Signal #19	28.8	3.09	1146.4	1251.9	11.7
Signal #20	29.2	3.05	9176.3	9279.5	93.9
Signal #21	29.4	3.03	1181.7	1282.7	12.1
Signal #22	30.3	2.95	1526.2	1609.3	15.6
Signal #23	30.5	2.93	1294.4	1373.5	13.2
Signal #24	30.7	2.91	1384.8	1458.2	14.2
Signal #25	33.9	2.65	1308.3	1346.6	13.4
Signal #26	34.8	2.58	1271.3	1313.6	13.0
Signal #27	47.4	1.92	1085.5	1133.8	11.1

Compound 1 Maleate Salt

In some embodiments, the compound 1 salt is a compound 1 maleate salt. In some embodiments, the compound 1 maleate salt is amorphous. In some embodiments, the compound 1 maleate salt is crystalline. In some embodiments, the compound 1 maleate salt is a 1:1 compound 1:maleate salt. In some embodiments, the compound 1 maleate salt is a 2:1 compound 1:maleate salt.

In some embodiments, the compound 1 maleate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Tables 43 and 44. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 205 or 168. In some embodiments, the crystalline polymorph ¹H-NMR spectrum is substantially similar to that shown in FIG. 198. In some embodiments, the crystalline polymorph DVS is substantially similar to that shown in FIG. 200. In some embodiments, the crystalline polymorph TGA spectrum is substantially similar to that shown in FIG. 227. In some embodiments, the crystalline compound 1 benzoate DSC spectrum is substantially similar to that shown in any one of FIG. 199 or 226.

In some embodiments, the crystalline compound 1 maleate Is a crystalline polymorphic form characterized by DSC having a melting signal at about 60.2° C. In some embodiments, the crystalline compound 1 fumarate Form A Is a crystalline polymorphic form characterized by TGA having an onset at about 200.0° C.

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by an XRPD signal at 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 21.6°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 21.6°2θ, 23.7°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 21.6°2θ, 23.7°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.2°2θ, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 19.2°2θ, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.8°2θ, 19.2°2θ, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 11.8°2θ, 19.2°2θ, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 11.8°2θ, 19.2°2θ, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 11.8°2θ, 19.2°2θ, 21.6°2θ, 23.7°2θ, 26.0 °2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 11.8°2θ, 18.6°2θ, 19.2°2θ, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 11.8°2θ, 18.6°2θ, 19.2°2θ, 21.6 °2θ, 23.7°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 1 1.8°2θ, 18.6°2θ, 19.2°2θ, 21.6°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 1 1.8°2θ, 18.6°2θ, 19.2 °2θ, 21.6°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 11.8°2θ, 18.6°2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5 °2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 11.8°2θ, 18.6 °2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 11.8°2θ, 16.9°2θ, 18.6°2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 11.8°2θ, 16.9°2θ, 18.6°2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 11.8°2θ, 16.9°2θ, 18.6°2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 11.8°2θ, 16.9°2θ, 18.6°2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 10.9°2θ, 11.8°2θ, 16.9°2θ, 18.6°2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 10.9°2θ, 11.8°2θ, 16.9°2θ, 18.6°2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, or thirteen XRPD signals selected from those set forth in Table 43.

TABLE 43
Crystalline Compound 1 Maleate Salt XRPD signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	9.4	9.36	781.7	842.9	22.8
Signal #2	10.9	8.14	349.7	414.9	10.2
Signal #3	11.8	7.50	1028.1	1095.8	30.0
Signal #4	16.9	5.24	436.3	526.4	12.7
Signal #5	18.6	4.76	709.5	825.6	20.7
Signal #6	19.2	4.63	1126.1	1246.0	32.9
Signal #7	20.9	4.25	436.9	573.5	12.8
Signal #8	21.6	4.11	2203.6	2358.5	64.3
Signal #9	22.2	4.00	397.3	561.8	11.6
Signal #10	23.7	3.75	3426.3	3617.2	100.0
Signal #11	25.0	3.55	587.5	785.4	17.1
Signal #12	26.0	3.42	1321.4	1510.2	38.6
Signal #13	26.5	3.37	1149.3	1330.8	33.5

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by an XRPD signal at 19.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 19.1°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.1°2θ, 23.7°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 19.1°2θ, 23.7°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.5°2θ, 19.1°2θ, 23.7°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 18.5°2θ, 19.1°2θ, 23.7°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.5°2θ, 19.1°2θ, 21.6°2θ, 23.7°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 18.5°2θ, 19.1°2θ, 21.6°2θ, 23.7°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 23.7°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 23.7°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 23.7°2θ, 26.0 °2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8′28, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 23.7°2θ, 26.0°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 26.0°2θ, and 26.4°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8 °2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 26.0°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 26.0°2θ, and 26.4 °2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 16.7°2θ, 18.5°2θ, 19.1 °2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 26.0°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.8°2θ, 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 26.0°2θ, and 26.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 11.8°2θ, 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 26.0°2θ, and 26.4 °2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.8°2θ, 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 26.0°2θ, 26.4°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 11.8°2θ, 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 26.0°2θ, 26.4°20 and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.8°2θ, 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 26.0°2θ, 26.4°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 11.8°2θ, 16.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 26.0°2θ, 26.4°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.8°2θ, 16.7°2θ, 16.8°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 26.0°2θ, 26.4°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 11.8°2θ, 16.7°2θ, 16.8°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7 °2θ, 24.1°2θ, 26.0°2θ, 26.4°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 11.8°2θ, 16.7°2θ, 16.8°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 24.9°2θ, 26.0°2θ, 26.4°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 11.8°2θ, 16.7°2θ, 16.8°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6 °2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 24.9°2θ, 26.0°2θ, 26.4°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 11.8°2θ, 16.7°2θ, 16.8°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 24.9°2θ, 26.0°2θ, 26.4°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 11.8°2θ, 16.7°2θ, 16.8°2θ, 18.5°2θ, 19.1°2θ, 20.8 °2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 24.9°2θ, 26.0°2θ, 26.4°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 9.4°2θ, 11.8°2θ, 16.7°2θ, 16.8°2θ, 17.7°2θ, 18.5°2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 24.9°2θ, 26.0°2θ, 26.4°2θ, 28.2°2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 11.8°2θ, 16.7°2θ, 16.8°2θ, 17.7°2θ, 18.5 °2θ, 19.1°2θ, 20.8°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 24.1°2θ, 24.9°2θ, 26.0°2θ, 26.4°2θ, 28.2 °2θ, and 30.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 44.

TABLE 44
Crystalline Compound 1 Maleate Salt XRPD Signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	9.4	9.39	205.8	279.4	11.2
Signal #2	11.8	7.52	367.2	434.2	19.9
Signal #3	16.7	5.32	506.8	581.9	27.5
Signal #4	16.8	5.29	269.0	345.6	14.6
Signal #5	17.7	4.99	187.4	275.8	10.2
Signal #6	18.5	4.78	1074.6	1169.4	58.3
Signal #7	19.1	4.64	1843.6	1940.4	100.0
Signal #8	20.8	4.26	584.1	695.0	31.7
Signal #9	21.6	4.12	771.4	888.1	41.8
Signal #10	22.2	4.01	396.4	514.1	21.5
Signal #11	23.7	3.76	1531.8	1650.8	83.1
Signal #12	24.1	3.69	370.3	491.9	20.1
Signal #13	24.9	3.57	257.3	379.0	14.0
Signal #14	26.0	3.42	507.9	627.6	27.5
Signal #15	26.4	3.37	1307.7	1426.1	70.9
Signal #16	28.2	3.17	284.8	395.6	15.4
Signal #17	30.2	2.96	295.1	395.7	16.0

Crystalline Compound 1 Benzoate Salt

In some embodiments, the compound 1 salt is a compound 1 benzoate salt. In some embodiments, the compound 1 benzoate salt is amorphous. In some embodiments, the compound 1 benzoate salt is crystalline. In some embodiments, the compound 1 benzoate salt is a 1:1 compound 1:benzoate salt. In some embodiments, the compound 1 benzoate salt is a 2:1 compound 1:benzoate salt.

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 46. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 169. In some embodiments, the crystalline polymorph ¹H-NMR spectrum is substantially similar to that shown in 207. In some embodiments, the crystalline polymorph DVS is substantially similar to that shown in FIG. 209. In some embodiments, the crystalline polymorph TGA spectrum is substantially similar to that shown in FIG. 231 or 213. In some embodiments, the crystalline compound 1 benzoate DSC spectrum is substantially similar to that shown in any one of FIG. 208 or 230.

In some embodiments, the crystalline compound 1 benzoate is a crystalline polymorphic form characterized by DSC having a melting signal at about 101.0° C. In some embodiments, the crystalline compound 1 fumarate Form A Is a crystalline polymorphic form characterized by TGA having an onset at about 102.2° C.

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by an XRPD signal at 17.5°2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 14.5°2θ, and 17.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.5°2θ, 17.5°2θ, and 18.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 14.5°2θ, 17.5°2θ, and 18.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.8°2θ, 14.5°2θ, 17.5°2θ, and 18.6°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 13.8°2θ, 14.5°2θ, 17.5°2θ, and 18.6°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 13.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, and 19.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 13.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, and 19.2°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 13.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, and 19.2°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 13.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, and 19.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 13.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, and 25.3°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 13.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, 19.2 °2θ, and 25.3°2θ (±0.2°2θ; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 13.8°2θ, 14.5°2θ, 1 5.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, and 25.3°2θ (10.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5 °2θ, 18.6°2θ, 19.2°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 25.2°2θ, and 25.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 13.8°2θ, 14.5°2θ, 15.5 °2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 25.2°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 12.5°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 25.2°2θ, and 25.3 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 12.5°2θ, 13.8 °2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 25.2°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 12.5°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 19.7°2θ, 25.2°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 12.5°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 19.7°2θ, 25.2°2θ, and 25.3 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 12.5°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 19.7°2θ, 23.7°2θ, 25.2°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8 °2θ, 12.5°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 19.7°2θ, 23.7°2θ, 25.2 °2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 12.5°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 19.7°2θ, 20.6°2θ, 23.7°2θ, 25.2°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 12.5°2θ, 13.8°2θ, 14.5°2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 19.7°2θ, 20.6°2θ, 23.7°2θ, 25.2°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, ten, eleven, twelve, or thirteen XRPD signals selected from those set forth in Table 45.

TABLE 45
Crystalline compound 1 benzoate salt XRPD signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	7.8	11.28	1803.2	1921.3	19.9
Signal #2	12.5	7.08	1379.5	1497.4	15.2
Signal #3	13.8	6.43	2438.3	2595.4	26.9
Signal #4	14.5	6.10	2985.8	3166.9	33.0
Signal #5	15.5	5.72	1578.8	1782.4	17.4
Signal #6	17.5	5.07	9059.3	9310.6	100.0
Signal #7	18.6	4.76	2469.9	2748.9	27.3
Signal #8	19.2	4.62	2112.2	2395.9	23.3
Signal #9	19.7	4.50	1262.4	1544.5	13.9
Signal #10	20.6	4.31	978.6	1246.4	10.8
Signal #11	23.7	3.76	1206.2	1416.9	13.3
Signal #12	25.2	3.53	1563.8	1783.7	17.3
Signal #13	25.3	3.52	1618.8	1838.4	17.9

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by an XRPD signal at 17.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ and 17.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 17.5°2θ, and 19.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 17.5°2θ, and 19.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 14.5°2θ, 17.5°2θ, and 19.1°28 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 14.5°2θ, 17.5°2θ, and 19.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 14.5°2θ, 17.5°2θ, 19.1°2θ, and 20.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 14.5°2θ, 17.5°2θ, 19.1°2θ, and 20.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°28; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 14.5°2θ, 17.5°2θ, 19.1°2θ, 20.5°2θ, and 23.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 14.5°2θ, 17.5°2θ, 19.1°2θ, 20.5°2θ, and 23.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 14.5°2θ, 17.5°2θ, 19.1°2θ, 20.5°2θ, 23.6°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 14.5°2θ, 17.5°2θ, 19.1°2θ, 20.5°2θ, 23.6 °2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 20.5°2θ, 23.6°2θ, and 25.3°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, 19.1 °2θ, 20.5°2θ, 23.6°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 13.7°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 20.5°2θ, 23.6°2θ, and 25.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 13.7°2θ, 14.5 °2θ, 17.5 °2θ, 18.6°2θ, 19.1°2θ, 20.5°2θ, 23.6°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 13.7°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 20.5°2θ, 21.4°2θ, 23.6°2θ, and 25.3 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 13.7°2θ, 14.5 °2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 20.5°2θ, 21.4°2θ, 23.6°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 13.7°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 20.5°2θ, 21.4°2θ, 23.6°2θ, 25.3°2θ, and 25.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 13.7°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 20.5°2θ, 21.4°2θ, 23.6°2θ, 25.3°2θ, and 25.9 °2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ. Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 13.7°2θ, 14.5°2θ, 15.7°2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 20.5°2θ, 21.4°2θ, 23.6°2θ, 25.3°2θ, and 25.9°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8 °2θ, 13.7°2θ, 14.5°2θ, 15.7°2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 20.5°2θ, 21.4°2θ, 23.6°2θ, 25.3 °2θ, and 25.9°2θ (10.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 13.7°2θ, 14.5°2θ, 15.7°2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 19.7°2θ, 20.5°2θ, 21.4°2θ, 23.6°2θ, 25.3°2θ, and 25.9°2θ (±0.2°2θ; ±0.1°2θ; or 10.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.8°2θ, 12.5°2θ, 13.7°2θ, 14.5°2θ, 15.7°2θ, 17.5 °2θ, 18.6°2θ, 19.1°2θ, 19.7°2θ, 20.5°2θ, 21.4°2θ, 23.6°2θ, 25.3°2θ, and 25.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 12.5°2θ, 13.7°2θ, 14.5°2θ, 15.7°2θ, 17.5°2θ, 18.6°2θ, 19.1°2θ, 19.7 °2θ, 20.5°2θ, 21.4°2θ, 23.6°2θ, 25.3°2θ, and 25.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline compound 1 benzoate is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, or fourteen XRPD signals selected from those set forth in Table 46.

TABLE 46
Crystalline compound 1 Benzoate XRPD signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	7.8	11.30	2104.9	2228.3	54.0
Signal #2	12.5	7.10	405.5	501.7	10.4
Signal #3	13.7	6.45	473.3	590.7	12.1
Signal #4	14.5	6.11	1286.0	1416.0	33.0
Signal #5	15.7	5.66	426.6	579.4	10.9
Signal #6	17.5	5.08	3901.0	4093.7	100.0
Signal #7	18.6	4.77	573.2	789.6	14.7
Signal #8	19.1	4.63	1533.8	1756.2	39.3
Signal #9	19.7	4.50	416.8	640.9	10.7
Signal #10	20.5	4.32	888.8	1108.0	22.8
Signal #11	21.4	4.16	445.7	651.8	11.4
Signal #12	23.6	3.76	829.9	995.4	21.3
Signal #13	25.3	3.52	816.4	987.0	20.9
Signal #14	25.9	3.43	436.4	598.7	11.2

Compound 1 Tosylate Salt

In some embodiments, the compound 1 salt is a compound 1 tosylate salt. In some embodiments, the compound 1 tosylate salt is amorphous. In some embodiments, the compound 1 tosylate salt is crystalline. In some embodiments, the compound 1 tosylate salt is a 1:1 compound 1:tosylate salt. In some embodiments, the compound 1 tosylate salt is a 2:1 compound 1:tosylate salt.

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 113. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 170. In some embodiments, the crystalline polymorph TGA spectrum is substantially similar to that shown in FIG. 235. In some embodiments, the crystalline compound 1 tosylate DSC spectrum is substantially similar to that shown in FIG. 234.

In some embodiments, the crystalline compound 1 tosylate is a crystalline polymorphic form characterized by DSC having a melting signal at about 137.7° C.

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by an XRPD signal at 19.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 19.5°2θ, and 19.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.3°2θ, 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 15.3°2θ, 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.5°2θ, 15.3°2θ, 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 14.5°2θ, 15.3°2θ, 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.5°2θ, 15.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 14.5°2θ, 15.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8 °2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 23.3°2θ, and 25.5°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 23.3°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 23.3°2θ, and 25.5°2θ (10.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3 °2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 23.3°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 23.3°2θ, and 25.5 °2θ(±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3 °2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 23.3°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°20; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, and 25.5 °2θ (±0.2°2θ; ±0.1°20; or 00.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3 °2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, 25.5 °2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, 29.4°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, 29.4°2θ, and 30.3°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, 26.6°2θ, 29.4°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5 °2θ, 19.5°2θ, 19.8 °2θ, 20.6°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, 26.6°2θ, 29.4°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 20.7°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, 26.6°2θ, 29.4°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 19.5°2θ, 19.8 °2θ, 20.6°2θ, 20.7°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, 26.6°2θ, 29.4°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 18.2°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 20.7°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, 26.6°2θ, 29.4°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 18.2 °2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 20.7°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.2°2θ, 26.6°2θ, 29.4 °2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 18.2°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 20.7°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.0°2θ, 26.2°2θ, 26.6°2θ, 29.4°28, and 30.3°2θ (±0.2°2θ; ±0.1 °2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3°2θ, 16.3°2θ, 16.5°2θ, 18.2°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 20.7°2θ, 22.9°2θ, 23.3°2θ, 25.5°2θ, 26.0°2θ, 26.2°2θ, 26.6°2θ, 29.4°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 113.

TABLE 113
Crystalline compound 1 tosylate XRPD signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.3	8.55	474.8	585.9	19.3
Signal #2	14.5	6.11	1370.5	1504.6	55.7
Signal #3	15.3	5.79	1520.3	1671.6	61.8
Signal #4	16.3	5.43	748.3	911.8	30.4
Signal #5	16.5	5.36	822.5	987.1	33.4
Signal #6	18.2	4.87	268.3	454.0	10.9
Signal #7	19.5	4.55	2407.4	2609.4	97.8
Signal #8	19.8	4.48	2460.8	2664.7	100.0
Signal #9	20.6	4.31	459.0	663.0	18.7
Signal #10	20.7	4.28	298.7	502.0	12.1
Signal #11	22.9	3.88	432.4	618.5	17.6
Signal #12	23.3	3.81	559.6	738.7	22.7
Signal #13	25.5	3.49	1731.4	1899.3	70.4
Signal #14	26.0	3.43	259.7	422.1	10.6
Signal #15	26.2	3.40	347.4	506.1	14.1
Signal #16	26.6	3.35	299.5	452.0	12.2
Signal #17	29.4	3.04	321.5	470.6	13.1
Signal #18	30.3	2.95	372.0	509.4	15.1

Compound 1 Tartrate Salt

In some embodiments, the compound 1 salt is a compound 1 tartrate salt. In some embodiments, the compound 1 tartrate salt is amorphous. In some embodiments, the compound 1 tartrate salt is crystalline. In some embodiments, the compound 1 tartrate salt is a 1:1 compound 1:tartrate salt. In some embodiments, the compound 1 tartrate salt is a 2:1 compound 1:tartrate salt.

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 47. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 171. In some embodiments, the crystalline polymorph TGA spectrum is substantially similar to that shown in FIG. 239.

In some embodiments, the crystalline compound 1 tartrate is a crystalline polymorphic form characterized by DSC having a melting signal at about 115.5° C.

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by an XRPD signal at 17.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, and 17.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 17.5 °2θ, and 19.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 17.5 °2θ, and 19.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 17.5 °2θ, 19.3°2θ, and 20.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 17.5°2θ, 19.3°2θ, and 20.1°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 14.5 °2θ, 17.5°2θ, 19.3°2θ, and 20.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5°2θ, 19.3°2θ, and 20.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 14.5 °2θ, 17.5°2θ, 19.3°2θ, 20.1°2θ, and 21.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5°2θ, 19.3°2θ, 20.1°2θ, and 21.0°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 14.5 °2θ, 17.5°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 14.5 °2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0 °2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 14.5 °2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1 °2θ, 21.0°2θ, 23.3°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 14.5 °2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, and 31.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5°2θ, 18.7°2θ, 19.3 °2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, and 31.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 14.5 °2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, and 31.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5 °2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, and 31.8°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 14.5 °2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5 °2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 31.8 °2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1 °2θ, 14.5°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 31.8 °2θ, and 38.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 29.7 °2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1°2θ, 14.5°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 28.0 °2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°20; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1°2θ, 14.5°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 28.0°2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 23.3°2θ, 23.7°2θ, 27.5 °2θ, 28.0°2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0 °2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 28.0°2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7 °2θ, 27.5°2θ, 28.0°2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3 °2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 27.5°2θ, 28.0°2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7 °2θ, 24.8°2θ, 27.5°2θ, 28.0°2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3 °2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 27.5°2θ, 28.0°2θ, 29.7°2θ, 31.8 °2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7 °2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7 °2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0 °2θ, 29.7°2θ, 31.8°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7 °2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.7°2θ, 31.8°2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5 °2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5 °2θ, 28.0°2θ, 29.7°2θ, 31.8°2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7 °2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 31.8°2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1°2θ, 14.5 °2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8 °2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 31.8°2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7 °2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 31.8°2θ, 35.0°2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1°2θ, 14.5 °2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8 °2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 31.8°2θ, 35.0°2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 13.1 °2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7 °2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 30.8°2θ, 31.8°2θ, 35.0°2θ, 36.1 °2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 13.1 °2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7 °2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 30.8°2θ, 31.8°2θ, 35.0°2θ, 36.1 °2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 8.7 °2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3 °2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 30.8°2θ, 31.8°2θ, 35.0 °2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 8.7°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0 °2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 30.8 °2θ, 31.8°2θ, 35.0°2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 8.7 °2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3 °2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 30.8°2θ, 31.8°2θ, 35.0 °2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 8.7°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0 °2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 30.8 °2θ, 31.8°2θ, 35.0°2θ, 36.1°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 8.7 °2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3 °2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 30.8°2θ, 31.8°2θ, 35.0 °2θ, 36.1°2θ, 37.6°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 8.7°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0 °2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.7°2θ, 30.8 °2θ, 31.8°2θ, 35.0°2θ, 36.1°2θ, 37.6°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 8.7 °2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3 °2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.2°2θ, 29.7°2θ, 30.8°2θ, 31.8 °2θ, 35.0°2θ, 36.1°2θ, 37.6°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 8.7°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1 °2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.2 °2θ, 29.7°2θ, 30.8°2θ, 31.8°2θ, 35.0°2θ, 36.1°2θ, 37.6°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 8.7 °2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3 °2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.2°2θ, 29.7°2θ, 30.8°2θ, 31.8 °2θ, 33.3°2θ, 35.0°2θ, 36.1°2θ, 37.6°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 8.7°2θ, 13.1°2θ, 14.5°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.2°2θ, 29.7°2θ, 30.8°2θ, 31.8°2θ, 33.3°2θ, 35.0°2θ, 36.1°2θ, 37.6°2θ, and 38.9 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 4.3°2θ, 8.7 °2θ, 13.1°2θ, 14.5°2θ, 16.2°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8 °2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.2°2θ, 29.7°2θ, 30.8 °2θ, 31.8°2θ, 33.3°2θ, 35.0°2θ, 36.1°2θ, 37.6°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 8.7°2θ, 13.1°2θ, 14.5°2θ, 16.2°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3°2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.2°2θ, 29.7°2θ, 30.8°2θ, 31.8°2θ, 33.3°2θ, 35.0°2θ, 36.1°2θ, 37.6°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorphic Pattern 6 is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, twenty, twenty-one, twenty-two, twenty-three, twenty-four, twenty-five, twenty-six, twenty-seven, or twenty-eight XRPD signals selected from those set forth in Table 47.

TABLE 47
Crystalline compound 1 tartrate salt XRPD signals
(±0.2 °2θ; ±0.1 °2θ; or ±0.0 °2θ; Cu Kα1 radiation)
				Gross	Rel.
Signal		d	Net Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	4.3	20.31	1458.7	1808.7	100.0
Signal #2	8.7	10.15	178.6	254.9	12.2
Signal #3	13.1	6.77	424.0	496.7	29.1
Signal #4	14.5	6.12	996.2	1070.0	68.3
Signal #5	16.2	5.46	152.5	237.5	10.5
Signal #6	16.9	5.25	314.4	408.3	21.6
Signal #7	17.5	5.08	1369.8	1470.4	93.9
Signal #8	18.7	4.74	796.1	911.6	54.6
Signal #9	19.3	4.59	1183.0	1304.7	81.1
Signal #10	20.1	4.42	1036.2	1161.4	71.0
Signal #11	21.0	4.23	932.6	1055.0	63.9
Signal #12	21.8	4.07	252.4	367.9	17.3
Signal #13	23.3	3.81	631.1	733.7	43.3
Signal #14	23.7	3.75	904.7	1005.0	62.0
Signal #15	24.8	3.59	226.3	317.1	15.5
Signal #16	26.8	3.33	207.9	302.9	14.2
Signal #17	27.5	3.24	489.9	588.4	33.6
Signal #18	28.0	3.18	336.8	435.0	23.1
Signal #19	29.1	3.07	192.9	292.4	13.2
Signal #20	29.2	3.06	166.1	265.7	11.4
Signal #21	29.7	3.01	396.7	495.3	27.2
Signal #22	30.8	2.90	185.8	282.0	12.7
Signal #23	31.8	2.81	524.1	618.5	35.9
Signal #24	33.3	2.69	165.3	251.7	11.3
Signal #25	35.0	2.56	191.9	278.2	13.2
Signal #26	36.1	2.48	195.9	288.5	13.4
Signal #27	37.6	2.39	168.8	276.4	11.6
Signal #28	38.9	2.31	455.6	592.5	31.2

Compound 1 HBr Salt

In some embodiments, the compound 1 salt is a compound 1 HBr salt. In some embodiments, the compound 1 HBr salt is amorphous. In some embodiments, the compound 1 HBr salt is crystalline. In some embodiments, the compound 1 HBr salt is a 1:1 compound 1:HBr salt. In some embodiments, the compound 1 HBr salt is a 2:1 compound 1:HBr salt.

In some embodiments, the compound 1 HBr salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 48. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 172. In some embodiments, the crystalline polymorph TGA spectrum is substantially similar to that shown in 242. In some embodiments, the crystalline polymorph DSC spectrum is substantially similar to that shown in any one of FIG. 241.

In some embodiments, the crystalline compound 1 HBr salt is a crystalline polymorphic form characterized by DSC having a melting signal at about 194.8° C. In some embodiments, the crystalline compound 1 HBr salt is a crystalline polymorphic form characterized by TGA having an onset at about 253.7° C.

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two an XRPD signal at 21.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 18.1°2θ, and 21.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 18.1°2θ, and 21.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 18.1°2θ, and 21.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 18.1°2θ, 21.6°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 18.1°2θ, 21.6°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 18.1°2θ, 21.6°2θ, 24.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 18.1°2θ, 21.6°2θ, 24.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 17.5°2θ, 18.1°2θ, 21.6°2θ, 24.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 17.5°2θ, 18.1°2θ, 21.6°2θ, 24.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 17.5°2θ, 18.1°2θ, 21.6°2θ, 24.4°2θ, 27.0°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 17.5°2θ, 18.1°2θ, 21.6°2θ, 24.4°2θ, 27.0°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 17.5°2θ, 18.1°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 27.0°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 17.5°2θ, 18.1°2θ, 21.6°2θ, 24.4°2θ, 25.5 °2θ, 27.0°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 27.0°2θ, and 28.5°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 27.0°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, and 28.5°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 17.5 °2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.2°2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 23.3°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 23.3°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 23.3°2θ, 24.4°2θ, 25.5°2θ, 26.1 °2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 23.3°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 23.3°2θ, 23.7°2θ, 24.4°2θ, 25.5 °2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 23.3°2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7°2θ, 24.4 °2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 20.6 °2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7 °2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8 °2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4 °2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3 °2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1 °2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1 °2θ, 27.0°2θ, 28.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3 °2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, 28.5°2θ, and 34.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0°2θ, 14.2°2θ, 17.5 °2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7°2θ, 24.4°2θ, 25.5 °2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, 28.5°2θ, and 34.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3 °2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, 28.5°2θ, 30.1°2θ, and 34.9°2θ (±0.2°28; 10.1°2θ; or 10.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0°2θ, 14.2 °2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7°2θ, 24.4 °2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 28.4°2θ, 28.5°2θ, 30.1°2θ, and 34.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3 °2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 30.1°2θ, and 34.9°2θ (102°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0 °2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7 °2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 30.1°2θ, and 34.9°2θ (±0.2°2θ; 10.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3 °2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 30.1°2θ, 33.3 °2θ, and 34.9°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2 °2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3 °2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 30.1°2θ, 33.3 °2θ, and 34.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3 °2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 26.8°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 30.1 °2θ, 33.3°2θ, and 34.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some by two or more, or three or more XRPD signals selected from the group consisting of 6.5°2θ, 12.2 °2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3 °2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 26.8°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 29.6 °2θ, 30.1°2θ, 33.3°2θ, and 34.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals radiation).

In some embodiments, the compound 1 HBr salt is a crystalline polymorph characterized at 6.5°2θ, 12.2°2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 26.8°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 29.6°2θ, 30.1°2θ, 33.3°2θ, and 34.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 embodiments, the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0°2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 26.8°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 30.1°2θ, 33.3°2θ, and 34.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, eighteen, nineteen, twenty, twenty-one, twenty-two, twenty-three, twenty-four, or twenty-five XRPD signals selected from those set forth in Table 48.

TABLE 48
Crystalline compound 1 HBr salt XRPD signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	6.5	13.52	373.9	537.6	18.7
Signal #2	12.2	7.25	1330.8	1467.7	66.5
Signal #3	13.0	6.78	529.7	675.6	26.5
Signal #4	14.2	6.25	295.9	446.3	14.8
Signal #5	17.5	5.06	1145.4	1336.0	57.2
Signal #6	18.1	4.89	1961.2	2161.6	98.0
Signal #7	18.4	4.83	642.7	846.1	32.1
Signal #8	19.8	4.48	338.9	562.2	16.9
Signal #9	20.6	4.31	561.7	801.2	28.1
Signal #10	21.6	4.11	2000.9	2252.2	100.0
Signal #11	22.9	3.89	347.3	603.0	17.4
Signal #12	23.3	3.82	396.1	653.6	19.8
Signal #13	23.7	3.74	358.0	615.5	17.9
Signal #14	24.4	3.64	1251.6	1513.3	62.6
Signal #15	25.5	3.49	652.7	926.6	32.6
Signal #16	26.1	3.41	576.3	852.6	28.8
Signal #17	26.8	3.32	209.7	485.6	10.5
Signal #18	27.0	3.30	689.4	964.8	34.5
Signal #19	27.5	3.24	224.5	496.7	11.2
Signal #20	28.5	3.13	1318.0	1576.8	65.9
Signal #21	28.4	3.14	571.0	832.0	28.5
Signal #22	29.6	3.02	206.5	441.2	10.3
Signal #23	30.1	2.97	240.0	458.6	12.0
Signal #24	33.3	2.69	222.8	402.1	11.1
Signal #25	34.9	2.57	255.6	440.7	12.8

Compound 1 Galactarate Salt

In some embodiments, the compound 1 salt is a compound 1 Galactarate salt. In some embodiments, the compound 1 Galactarate salt is amorphous. In some embodiments, the compound 1 Galactarate salt is crystalline. In some embodiments, the compound 1 Galactarate salt is a 1:1 compound 1:Galactarate salt. In some embodiments, the compound 1 Galactarate salt is a 2:1 compound 1:Galactarate salt.

In some embodiments, the compound 1 galactarate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 49. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 173. In some embodiments, the crystalline polymorph DSC spectrum is substantially similar to that shown in FIG. 245.

In some embodiments, the crystalline compound 1 galactarate is a crystalline polymorphic form characterized by DSC having a melting signal at about 167.5° C. In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by an XRPD signal at 19.6 °2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ and 19.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 15.9°2θ, and 19.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 15.9°2θ, and 19.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ, Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 15.9°2θ, 19.6°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 15.9°2θ, 19.6°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 15.9°2θ, 17.9°2θ, 19.6°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 15.9°2θ, 17.9°2θ, 19.6°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6 °2θ, 20.4°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 25.2°2θ, and 30.7°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6 °2θ, 20.4°2θ, 25.2°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 12.1°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 25.2°2θ, and 30.7°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 15.9°2θ, 16.4 °2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 25.2°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 12.1°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 25.2°2θ, 30.7°2θ, and 34.4 °2θ(±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 25.2°2θ, 30.7°2θ, and 34.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 12.1°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 25.2°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 25.2°2θ, 30.7°2θ, 34.4°2θ, and 37.6 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 12.1°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 22.4°2θ, 25.2°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2 °2θ, 12.1°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 22.4°2θ, 25.2°2θ, 30.7°2θ, 34.4 °2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 12.1°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 25.2°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 25.2°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 25.2°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5 °2θ, 22.4°2θ, 25.2°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2′28; ±0.1°2θ; or ±0.0′28; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 24.9°2θ, 25.2°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6 °2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 24.9°2θ, 25.2°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 24.9°2θ, 25.2°2θ, 26.7°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6 °2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 24.9°2θ, 25.2°2θ, 26.7°2θ, 30.7°2θ, 34.4°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 24.9°2θ, 25.2°2θ, 26.7°2θ, 30.7°2θ, 34.4°2θ, 34.8°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9′28, 16.4 °2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 24.9°2θ, 25.2°2θ, 26.7°2θ, 30.7°2θ, 34.4 °2θ, 34.8°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, or seventeen XRPD signals selected from those set forth in Table 49.

TABLE 49
Crystalline compound 1 galactarate salt XRPD Signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	5.2	16.87	1950.2	2243.8	71.8
Signal #2	12.1	7.29	502.7	599.3	18.5
Signal #3	13.0	6.83	329.3	430.9	12.1
Signal #4	15.9	5.58	1262.9	1383.7	46.5
Signal #5	16.4	5.41	720.1	848.3	26.5
Signal #6	17.9	4.94	898.0	1036.9	33.1
Signal #7	19.6	4.52	2715.8	2871.7	100.0
Signal #8	20.4	4.36	646.7	806.9	23.8
Signal #9	21.5	4.14	334.3	489.7	12.3
Signal #10	22.4	3.97	414.3	554.8	15.3
Signal #11	24.9	3.57	328.2	465.1	12.1
Signal #12	25.2	3.54	619.9	757.6	22.8
Signal #13	26.7	3.33	280.4	407.8	10.3
Signal #14	30.7	2.91	1036.2	1154.4	38.2
Signal #15	34.4	2.60	478.6	607.2	17.6
Signal #16	34.8	2.58	278.6	404.8	10.3
Signal #17	37.6	2.39	434.3	564.2	16.0

In some embodiments, the compound 1 salt is a compound 1 Succinate salt. In some embodiments, the compound 1 Succinate salt is amorphous. In some embodiments, the compound 1 Succinate salt is crystalline. In some embodiments, the compound 1 Succinate salt is a 1:1 compound 1:Succinate salt. In some embodiments, the compound 1 Succinate salt is a 2:1 compound 1:Succinate salt.

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 50. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 174. In some embodiments, the crystalline polymorph DSC spectrum is substantially similar to that shown in FIG. 248.

In some embodiments, the crystalline compound 1 succinate is a crystalline polymorphic form characterized by DSC having a melting signal at about 89.8° C.

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by an XRPD signal at 18.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ and 19.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.2°2θ, 19.3°2θ, and 22.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 19.3°2θ, and 22.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°28; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.2°2θ, 19.3°2θ, 20.0°2θ, and 22.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 19.3°2θ, 20.0°2θ, and 22.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0 °2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, and 26.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, and 26.1°2θ (±0.2′28; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 26.1°2θ, and 28.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3 °2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 26.1°2θ, and 28.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 26.1°2θ, 28.2°2θ, and 31.4 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 17.7°2θ, 18.2 °2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 26.1°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 24.7°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7 °2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 24.7°2θ, 26.1°2θ, 27.5°2θ, 28.2 °2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 13.9°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 24.7°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 13.9°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 24.7°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 13.9°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 13.9°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 13.9°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 13.9°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0 °2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 13.9°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 21.3°2θ, 22.0°2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 13.9°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 21.3 °2θ, 22.0°2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 13.9°2θ, 17.3°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 21.3°2θ, 22.0°2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 13.9°2θ, 17.3°2θ, 17.7°2θ, 18.2°2θ, 19.3 °2θ, 20.0°2θ, 21.3°2θ, 22.0°2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2 °2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 12.7°2θ, 13.9°2θ, 17.3°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 21.2°2θ, 21.3°2θ, 22.0°2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 13.9°2θ, 17.3°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 21.2°2θ, 21.3°2θ, 22.0°2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, sixteen, seventeen, or eighteen XRPD signals selected from those set forth in Table 50.

TABLE 50
Crystalline Compound 1 succinate salt XRPD Signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	12.7	6.99	831.7	923.5	25.5
Signal #2	13.9	6.39	453.7	556.2	13.9
Signal #3	17.3	5.11	373.2	516.0	11.4
Signal #4	17.7	5.01	900.9	1056.3	27.6
Signal #5	18.2	4.86	3265.5	3436.0	100.0
Signal #6	19.3	4.60	2015.8	2206.0	61.7
Signal #7	20.0	4.43	1259.7	1456.3	38.6
Signal #8	21.2	4.18	330.1	522.5	10.1
Signal #9	21.3	4.17	385.4	577.3	11.8
Signal #10	22.0	4.04	1262.6	1444.0	38.7
Signal #11	23.7	3.75	395.2	588.9	12.1
Signal #12	24.1	3.68	795.7	997.0	24.4
Signal #13	24.7	3.60	456.4	663.3	14.0
Signal #14	25.5	3.50	424.8	635.7	13.0
Signal #15	26.1	3.41	1066.7	1277.3	32.7
Signal #16	27.5	3.24	500.9	692.9	15.3
Signal #17	28.2	3.16	771.5	945.2	23.6
Signal #18	31.4	2.85	646.3	803.5	19.8

Compound 1 Citrate Salt

In some embodiments, the compound 1 salt is a compound 1 Citrate salt. In some embodiments, the compound 1 Citrate salt is amorphous. In some embodiments, the compound 1 Citrate salt is crystalline. In some embodiments, the compound 1 Citrate salt is a 1:1 compound 1:Citrate salt. In some embodiments, the compound 1 Citrate salt is a 2:1 compound 1:Citrate salt.

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 51. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 257. In some embodiments, the crystalline polymorph DSC spectrum is substantially similar to that shown in FIG. 258.

In some embodiments, the crystalline compound 1 citrate is a crystalline polymorphic form characterized by DSC having a melting signal at about 182.8° C.

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by an XRPD signal at 23.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, and 23.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.2°2θ, 23.9°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 23.9°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 18.2°2θ, 23.9°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 18.0°2θ, 18.2°2θ, 23.9°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, and 28.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, and 28.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2 °2θ, 28.9°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.4°2θ, and 36.2°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.4°2θ, and 36.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.4°2θ, 36.2°2θ, and 37.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9 °2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.4°2θ, 36.2°2θ, and 37.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.4°2θ, 36.2°2θ, and 37.0 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 14.2°2θ, 18.0°2θ, 18.2 °2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.4°2θ, 36.2°2θ, and 37.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.4°2θ, 33.7°2θ, 36.2°2θ, and 37.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 14.2°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.4°2θ, 33.7°2θ, 36.2°2θ, and 37.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.1°2θ, 31.4°2θ, 33.7°2θ, 36.2°2θ, and 37.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 14.2°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.1°2θ, 31.4°2θ, 33.7°2θ, 36.2°2θ, and 37.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.1°2θ, 31.4°2θ, 33.7°2θ, 36.2°2θ, 37.0°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 14.2°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.1°2θ, 31.4°2θ, 33.7°2θ, 36.2°2θ, 37.0°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, 14.4°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.1°2θ, 31.4°2θ, 33.7°2θ, 36.2°2θ, 37.0°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 14.2°2θ, 14.4°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 28.9°2θ, 31.1°2θ, 31.4°2θ, 33.7°2θ, 36.2°2θ, 37.0°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 14.2°2θ, radiation). In some embodiments, the compound 1 Citrate salt is a crystalline polymorph characterized by XRPD signals at 14.2°2θ, 14.4°2θ, 18.0°2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1 °2θ, 26.2°2θ, 27.6°2θ, 28.9°2θ, 31.1°2θ, 31.4°2θ, 33.7°2θ, 36.2°2θ, 37.0°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, thirteen, fourteen, fifteen, or sixteen XRPD signals selected from those set forth in Table 51.

TABLE 51
Crystalline compound 1 citrate salt XRPD Signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	14.2	6.23	219.3	419.7	27.4
Signal #2	14.4	6.13	114.1	320.5	14.2
Signal #3	18.0	4.93	532.8	804.9	66.5
Signal #4	18.2	4.86	741.7	1015.9	92.6
Signal #5	19.6	4.54	446.3	723.9	55.7
Signal #6	23.9	3.72	801.3	1023.6	100.0
Signal #7	26.1	3.41	281.9	491.4	35.2
Signal #8	26.2	3.40	594.1	803.6	74.1
Signal #9	27.6	3.23	45.3	254.3	5.6
Signal #10	28.9	3.08	278.2	485.1	34.7
Signal #11	31.1	2.87	125.3	318.2	15.6
Signal #12	31.4	2.85	261.8	453.8	32.7
Signal #13	33.7	2.66	152.3	344.1	19.0
Signal #14	36.2	2.48	254.1	446.7	31.7
Signal #15	37.0	2.43	222.4	410.4	27.8
Signal #16	37.6	2.39	118.7	300.0	14.8

Compound 1 Malate Salt

In some embodiments, the compound 1 salt is a compound 1 Malate salt. In some embodiments, the compound 1 Malate salt is amorphous. In some embodiments, the compound 1 Malate salt is crystalline. In some embodiments, the compound 1 Malate salt is a 1:1 compound 1:Malate salt. In some embodiments, the compound 1 Malate salt is a 2:1 compound 1:Malate salt.

In some embodiments, the compound 1 Malate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 52. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 261. In some embodiments, the crystalline polymorph DSC spectrum is substantially similar to that shown in any one of FIG. 262.

In some embodiments, the crystalline compound 1 malate is a crystalline polymorphic form characterized by DSC having a melting signal at about 193.5° C.

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by an XRPD signal at 19.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ and 24.4°28 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 24.4°2θ, and 29.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 24.4°2θ, and 29.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 21.0°2θ, 24.4°2θ, and 29.4°2θ (±0.2°28; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 21.0°2θ, 24.4°2θ, and 29.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 21.0°2θ, 24.4°2θ, 29.4°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 21.0°2θ, 24.4°2θ, 29.4°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 20.9°2θ, 21.0°2θ, 24.4°2θ, 29.4°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 20.9°2θ, 21.0°2θ, 24.4°2θ, 29.4°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 20.9°2θ, 21.0°2θ, 24.4°2θ, 29.4°2θ, 29.7°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 20.9°2θ, 21.0°2θ, 24.4°2θ, 29.4°2θ, 29.7°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 20.9°2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 29.4°2θ, 29.7°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 20.9°2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 29.4 °2θ, 29.7°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 20.9°2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, and 37.7°2θ (±0.2°2θ; ±0.1 °2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 20.9°2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 19.3°2θ, 20.9°2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, and 37.7°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 20.9°2θ, 21.0°2θ, 22.3 °2θ, 24.4°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.5°2θ, 19.3 °2θ, 20.9°2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 7.5°2θ, 19.3°2θ, 20.9 °2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.5°2θ, 19.3 °2θ, 20.9°2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 27.7°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 7.5°2θ, 19.3°2θ, 20.9 °2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 27.7°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 7.5°2θ, 19.3 °2θ, 20.9°2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 27.7°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, 37.0 °2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation). In some embodiments, the compound 1 Malate salt is a crystalline polymorph characterized by XRPD signals at 7.5°2θ, 19.3 °2θ, 20.9°2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 27.7°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, 37.0 °2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve, or thirteen XRPD signals selected from those set forth in Table 52.

TABLE 52
Crystalline compound 1 malate salt XRPD Signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
					Rel.
		d	Net	Gross	Intensity
Name	Angle	Value	Intensity	Intensity	(%)
Signal #1	7.5	11.72	116.6	232.9	13.0
Signal #3	19.3	4.58	894.5	1074.7	100.0
Signal #5	20.9	4.26	180.2	360.7	20.1
Signal #6	21.0	4.23	187.8	367.8	21.0
Signal #7	22.3	3.98	153.2	319.1	17.1
Signal #8	24.4	3.65	690.1	834.8	77.1
Signal #9	27.7	3.22	101.4	218.1	11.3
Signal #10	29.4	3.04	278.4	386.6	31.1
Signal #11	29.7	3.01	156.0	263.5	17.4
Signal #12	30.2	2.96	140.0	245.0	15.7
Signal #13	34.1	2.63	128.6	223.9	14.4
Signal #15	37.0	2.42	94.7	198.5	10.6
Signal #16	37.7	2.39	183.8	285.1	20.5

Compound 1 Glucuronate Salt

In some embodiments, the compound 1 salt is a compound 1 Glucuronate salt. In some embodiments, the compound 1 Glucuronate salt is amorphous. In some embodiments, the compound 1 Glucuronate salt is crystalline. In some embodiments, the compound 1 Glucuronate salt is a 1:1 compound 1:Glucuronate salt. In some embodiments, the compound 1 Glucuronate salt is a 2:1 compound 1:Glucuronate salt.

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 53. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 259. In some embodiments, the crystalline polymorph DSC spectrum is substantially similar to that shown in FIG. 260.

In some embodiments, the crystalline compound 1 glucuronate is a crystalline polymorphic form characterized by DSC having a melting signal at about 131.8° C.

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized an XRPD signal at 20.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by XRPD signals at 20.0°2θ and 20.5°2θ (10.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 20.0°2θ, 20.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by XRPD signals at 20.0°2θ, 20.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 20.0°2θ, 20.5°2θ, 22.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by XRPD signals at 20.0°2θ, 20.5°2θ, 22.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by XRPD signals at 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by XRPD signals at 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, 26.1°2θ, and 30.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by XRPD signals at 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, 26.1°2θ, and 30.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.1°2θ, 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, 26.1°2θ, and 30.6°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by XRPD signals at 15.1°2θ, 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, 26.1°2θ, and 30.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.1°2θ, 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, 26.1°2θ, 30.6°2θ, and 35.5°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by XRPD signals at 15.1°2θ, 17.7°2θ, 20.0°2θ, 20.5 °2θ, 22.5°2θ, 24.4°2θ, 26.1°2θ, 30.6°2θ, and 35.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 15.1°2θ, 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 30.6°2θ, and 35.5 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Glucuronate salt is a crystalline polymorph characterized by XRPD signals at 15.1°2θ, 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 30.6°2θ, and 35.5°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, ten, eleven, or twelve XRPD signals selected from those set forth in Table 53.

TABLE 53
Crystalline compound 1 glucuronate salt XRPD Signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	15.1	5.88	198.3	591.0	23.6
Signal #2	17.7	4.99	242.2	716.3	28.8
Signal #3	20.0	4.43	841.9	1343.6	100.0
Signal #4	20.5	4.34	445.4	947.9	52.9
Signal #5	22.5	3.95	366.5	854.6	43.5
Signal #6	24.4	3.65	303.9	752.1	36.1
Signal #7	25.5	3.50	106.7	$22.0	12.7
Signal #8	26.1	3.41	240.8	631.7	28.6
Signal #9	30.6	2.92	212.1	480.9	25.2
Signal #10	35.5	2.53	140.2	368.4	16.7
Signal #11	35.5	2.53	118.7	346.8	14.1
Signal #12	35.5	2.53	115.6	343.4	13.7

Compound 1 Ascorbate Salt

In some embodiments, the compound 1 salt is a compound 1 Ascorbate salt. In some embodiments, the compound 1 Ascorbate salt is amorphous. In some embodiments, the compound 1 Ascorbate salt is crystalline. In some embodiments, the compound 1 Ascorbate salt is a 1:1 compound 1:Ascorbate salt. In some embodiments, the compound 1 Ascorbate salt is a 2:1 compound 1:Ascorbate salt.

In some embodiments, the compound 1 ascorbate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph is characterized by the XRPD signals set for the below in Table 54. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 265. In some embodiments, the polymorph DSC spectrum is substantially similar to that shown in FIG. 266.

In some embodiments, the crystalline compound 1 ascorbate is a crystalline polymorphic form characterized by DSC having a melting signal at about 157.0° C.

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by an XRPD signal at 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.5°2θ, 19.9°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 19.9°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.5°2θ, 19.9°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 19.9°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.5°2θ, 19.9°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 19.9°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.5°2θ, 17.5°2θ, 19.9°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 17.5°2θ, 19.9°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.5°2θ, 17.5°2θ, 19.9°2θ, 25.3°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 17.5°2θ, 19.9°2θ, 25.3°2θ, 28.1°2θ, 30.1 °2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.5°2θ, 17.5°2θ, 19.9°2θ, 21.1°2θ, 25.3°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0′28; Cu Kα1 radiation). In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 17.5°2θ, 19.9°2θ, 21.1°2θ, 25.3°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by two or more, or three or more XRPD signals selected from the group consisting of 10.5°2θ, 16.1°2θ, 17.5°2θ, 19.9°2θ, 21.1°2θ, 25.3°2θ, 28.1°2θ, 30.1°2θ, and 34.8′28 (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation). In some embodiments, the compound 1 Ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 16.1°2θ, 17.5°2θ, 19.9 °2θ, 21.1°2θ, 25.3°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

In some embodiments, crystalline polymorph is characterized by one, two, three, four, five, six, seven, eight, nine, or ten XRPD signals selected from those set forth in Table 54.

TABLE 54
Crystalline compound 1 ascorbate salt XRPD signals (±0.2 °2θ; ±0.1
°2θ; or ±0.0 °2θ; Cu Kα1 radiation)
			Net	Gross	Rel.
Signal		d	Intensity	Intensity	Intensity
number	2-θ (°)	Value	(counts)	(counts)	(%)
Signal #1	10.5	8.40	4549.3	4722.9	59.2
Signal #2	16.1	5.49	967.6	1276.6	12.6
Signal #3	17.5	5.06	1284.7	1640.2	16.7
Signal #4	19.9	4.46	3172.9	3547.3	41.3
Signal #5	21.1	4.20	1064.9	1416.0	13.9
Signal #6	25.3	3.51	1086.3	1333.6	14.1
Signal #7	28.1	3.18	1363.4	1604.6	17.7
Signal #8	28.1	3.17	2409.3	2649.7	31.3
Signal #9	30.1	2.97	2601.5	2831.9	33.8
Signal #10	34.8	2.57	7687.5	7907.7	100.0

Compound 1 Sulfate Salt

In some embodiments, the compound 1 salt is a compound 1 sulfate salt. In some embodiments, the compound 1 sulfate salt is amorphous. In some embodiments, the compound 1 sulfate salt is crystalline. In some embodiments, the compound 1 sulfate salt is a 1:1 compound 1:sulfate salt. In some embodiments, the compound 1 sulfate salt is a 2:1 compound 1:sulfate salt.

In some embodiments, the compound 1 ascorbate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 249. In some embodiments, the polymorph DSC spectrum is substantially similar to that shown in FIG. 250. In some embodiments, the polymorph TGA profile is substantially similar to that shown in FIG. 251.

Compound 1 Mesylate Salt

In some embodiments, the compound 1 salt is a compound 1 mesylate salt. In some embodiments, the compound 1 mesylate salt is amorphous. In some embodiments, the compound 1 mesylate salt is crystalline. In some embodiments, the compound 1 mesylate salt is a 1:1 compound 1:mesylate salt. In some embodiments, the compound 1 mesylate salt is a 2:1 compound 1:mesylate salt.

In some embodiments, the compound 1 mesylate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 253. In some embodiments, the polymorph DSC spectrum is substantially similar to that shown in FIG. 254 or 255.

Compound 1 Esylate Salt

In some embodiments, the compound 1 salt is a compound 1 esylate salt. In some embodiments, the compound 1 esylate salt is amorphous. In some embodiments, the compound 1 esylate salt is crystalline. In some embodiments, the compound 1 esylate salt is a 1:1 compound 1:esylate salt. In some embodiments, the compound 1 esylate salt is a 2:1 compound 1:esylate salt.

In some embodiments, the compound 1 esylate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 252.

Compound 1 Phosphate Salt

In some embodiments, the compound 1 salt is a compound 1 phosphate salt. In some embodiments, the compound 1 phosphate salt is amorphous. In some embodiments, the compound 1 phosphate salt is crystalline. In some embodiments, the compound 1 phosphate salt is a 1:1 compound 1:phosphate salt. In some embodiments, the compound 1 phosphate salt is a 2:1 compound 1:phosphate salt.

In some embodiments, the compound 1 phosphate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 257.

Compound 1 Edisylate Salt

In some embodiments, the compound 1 salt is a compound 1 edisylate salt. In some embodiments, the compound 1 edisylate salt is amorphous. In some embodiments, the compound 1 edisylate salt is crystalline. In some embodiments, the compound 1 edisylate salt is a 1:1 compound 1:edisylate salt. In some embodiments, the compound 1 edisylate salt is a 2:1 compound 1:edisylate salt.

In some embodiments, the compound 1 phosphate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 267.

Compound 1 Adipate Salt

In some embodiments, the compound 1 salt is a compound 1 edisylate salt. In some embodiments, the compound 1 edisylate salt is amorphous. In some embodiments, the compound 1 edisylate salt is crystalline. In some embodiments, the compound 1 edisylate salt is a 1:1 compound 1:edisylate salt. In some embodiments, the compound 1 edisylate salt is a 2:1 compound 1:edisylate salt.

In some embodiments, the compound 1 phosphate salt is a crystalline polymorph. In some embodiments, the crystalline polymorph XRPD pattern is substantially similar to that shown in FIG. 268.

Pharmaceutical Compositions and Formulations

In some embodiments, the present disclosure provides a pharmaceutical composition comprising one or more of the disclosed solid forms of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine fumarate, and a pharmaceutically acceptable excipient. Such compositions are suitable for administration to a subject, such as a human subject.

The presently disclosed pharmaceutical compositions can be prepared in a wide variety of oral, parenteral, such as intravenous, and topical dosage forms. Oral preparations include tablets, pills, powder, capsules, lozenges, cachets, slurries, suspensions, etc., suitable for ingestion by the patient. The compositions of the present invention can also be administered as solutions, orally or parenterally, such as by injection, that is, intravenously, intramuscularly, intracutaneously, subcutaneously, intraduodenally, or intraperitoneally. Also, the compositions described herein can be administered by inhalation, for example, intranasally. Additionally, the compositions of the present invention can be administered transdermally. The compositions of this invention can also be administered by intraocular, intravaginal, and intrarectal routes including suppositories, insufflation, powders and aerosol formulations (for examples of steroid inhalants, see Rohatagi, J. Clin. Pharmacol. 35:1187-1193, 1995; Tjwa, Ann. Allergy Asthma Immunol. 75:107-111, 1995).

Accordingly, the present disclosure also provides pharmaceutical compositions including a pharmaceutically acceptable carrier or excipient and the solid form of the compounds of the present disclosure.

For preparing pharmaceutical compositions from the compounds disclosed herein, pharmaceutically acceptable carriers can be either solid or liquid. Solid form preparations include powders, tablets, pills, capsules, cachets, suppositories, and dispersible granules. A solid carrier can be one or more substances, which may also act as diluents, flavoring agents, binders, preservatives, tablet disintegrating agents, or an encapsulating material. Details on techniques for formulation and administration are well described in the scientific and patent literature, see, e.g., the latest edition of Remington's Pharmaceutical Sciences, Mack Publishing Co, Easton PA (“Remington's”).

In powders, the carrier is a finely divided solid, which is in a mixture with the finely divided active component. In tablets, the active component is mixed with the carrier having the necessary binding properties in suitable proportions and compacted in the shape and size desired. The powders and tablets preferably contain from 5% to 70% or 10% to 70% of the compounds of the present disclosure.

Suitable solid excipients include, but are not limited to, magnesium carbonate; magnesium stearate; talc; pectin; dextrin; starch; tragacanth; a low melting wax; cocoa butter; carbohydrates; sugars including, but not limited to, lactose, sucrose, mannitol, or sorbitol, starch from com, wheat, rice, potato, or other plants; cellulose such as methyl cellulose, hydroxypropylmethyl-cellulose, or sodium carboxymethylcellulose; and gums including arabic and tragacanth; as well as proteins including, but not limited to, gelatin and collagen.

If desired, disintegrating or solubilizing agents may be added, such as the cross-linked polyvinyl pyrrolidone, agar, alginic acid, or a salt thereof, such as sodium alginate.

For preparing suppositories, a low melting wax, such as a mixture of fatty acid glycerides or cocoa butter, is first melted and the compounds of the present invention are dispersed homogeneously therein, as by stirring. The molten homogeneous mixture is then poured into convenient sized molds, allowed to cool, and thereby to solidify.

Liquid form preparations include suspensions, for example, aqueous solutions and water or water/propylene glycol suspensions.

Aqueous suspensions suitable for oral use can be made by dispersing the finely divided active component in water with viscous material, such as natural or synthetic gums, resins, methylcellulose, sodium carboxymethylcellulose, hydroxypropylmethylcellulose, sodium alginate, polyvinylpyrrolidone, gum tragacanth and gum acacia, and dispersing or wetting agents such as a naturally occurring phosphatide (e.g., lecithin), a condensation product of an alkylene oxide with a fatty acid (e.g., polyoxyethylene stearate), a condensation product of ethylene oxide with a long chain aliphatic alcohol (e.g., heptadecaethylene oxycetanol), a condensation product of ethylene oxide with a partial ester derived from a fatty acid and a hexitol (e.g., polyoxyethylene sorbitol mono-oleate), or a condensation product of ethylene oxide with a partial ester derived from fatty acid and a hexitol anhydride (e.g., polyoxyethylene sorbitan mono-oleate). The aqueous suspension can also contain one or more preservatives such as ethyl or n-propyl p hydroxybenzoate, one or more coloring agents, one or more flavoring agents and one or more sweetening agents, such as sucrose, aspartame or saccharin. Formulations can be adjusted for osmolarity.

Also included are solid form preparations, which are intended to be converted, shortly before use, to liquid form preparations for oral administration. Such liquid forms include suspensions. These preparations may contain, in addition to the active component, colorants, flavors, stabilizers, buffers, artificial and natural sweeteners, dispersants, thickeners, solubilizing agents, and the like.

Oil suspensions can be formulated by suspending the compound of the present invention in a vegetable oil, such as arachis oil, olive oil, sesame oil or coconut oil, or in a mineral oil such as liquid paraffin; or a mixture of these. The oil suspensions can contain a thickening agent, such as beeswax, hard paraffin or cetyl alcohol. Sweetening agents can be added to provide a palatable oral preparation, such as glycerol, sorbitol or sucrose. These formulations can be preserved by the addition of an antioxidant such as ascorbic acid. As an example of an injectable oil vehicle, see Minto, J. Pharmacol. Exp. 7her. 281:93-102, 1997. The pharmaceutical formulations of the invention can also be in the form of oil-in-water emulsions. The oily phase can be a vegetable oil or a mineral oil, described above, or a mixture of these. Suitable emulsifying agents include naturally-occurring gums, such as gum acacia and gum tragacanth, naturally occurring phosphatides, such as soybean lecithin, esters or partial esters derived from fatty acids and hexitol anhydrides, such as sorbitan mono-oleate, and condensation products of these partial esters with ethylene oxide, such as polyoxyethylene sorbitan mono-oleate. The emulsion can also contain sweetening agents and flavoring agents, as in the formulation of syrups and elixirs. Such formulations can also contain a demulcent, a preservative, or a coloring agent.

The compositions of the present disclosure can also be delivered as microspheres for slow release in the body. For example, microspheres can be formulated for administration via intradermal injection of drug-containing microspheres, which slowly release subcutaneously (see Rao, J. Biomater Sci. Polym. Ed 7:623-645, 1995; as biodegradable and injectable gel formulations (see, e.g., Gao Pharm. Res. 12:857-863, 1995); or, as microspheres for oral administration (see, e.g., Eyles, J. Pharm. Pharmacol. 49:669-674, 1997). Both transdermal and intradermal routes afford constant delivery for weeks or months.

In some embodiments, the pharmaceutical compositions of the present disclosure can be formulated for parenteral administration, such as intravenous (IV) administration or administration into a body cavity or lumen of an organ. The formulations for administration will commonly comprise a solution or suspension of the compositions of the present disclosure dissolved or suspended in a pharmaceutically acceptable carrier. Among the acceptable vehicles and solvents that can be employed are water and Ringer's solution, an isotonic sodium chloride. In addition, sterile fixed oils can conventionally be employed as a solvent or suspending medium. For this purpose, any bland fixed oil can be employed including synthetic mono- or diglycerides. In addition, fatty acids such as oleic acid can likewise be used in the preparation of injectables. These solutions or suspensions are sterile and generally free of undesirable matter. These formulations may be sterilized by conventional, well known sterilization techniques. The formulations may contain pharmaceutically acceptable auxiliary substances as required to approximate physiological conditions such as pFI adjusting and buffering agents, toxicity adjusting agents, e.g., sodium acetate, sodium chloride, potassium chloride, calcium chloride, sodium lactate and the like. The concentration of the compositions of the present disclosure in these formulations can vary widely, and will be selected primarily based on fluid volumes, viscosities, body weight, and the like, in accordance with the particular mode of administration selected and the patient's needs. For IV administration, the formulation can be a sterile injectable preparation, such as a sterile injectable aqueous or oleaginous suspension. This suspension can be formulated according to the known art using those suitable dispersing or wetting agents and suspending agents. The sterile injectable preparation can also be a sterile injectable solution or suspension in a nontoxic parenterally-acceptable diluent or solvent, such as a solution of 1,3-butanediol.

In some embodiments, the formulations of the compositions of the present disclosure can be delivered by the use of liposomes which fuse with the cellular membrane or are endocytosed, for example, by employing ligands attached to the liposome, or attached directly to the oligonucleotide, that bind to surface membrane protein receptors of the cell resulting in endocytosis. By using liposomes, particularly where the liposome surface carries ligands specific for target cells, or are otherwise preferentially directed to a specific organ, one can focus the delivery of the compositions of the present invention into the target cells in vivo. (See, e.g., Al-Muhammed, J. Microencapsul. 13:293-306, 1996; Chonn, Curr. Opin. Biotechnol. 6:698-708, 1995; Ostro, Am. J. Hosp. Pharm. 46:1576-1587, 1989).

Administration:

The compositions of the present disclosure can be administered by any suitable means, including oral, parenteral and topical methods. Transdermal administration methods, by a topical route, can be formulated as applicator sticks, suspensions, creams, ointments, pastes, jellies, paints, powders, and aerosols.

The pharmaceutical preparation is preferably in unit dosage form. In such form the preparation is subdivided into unit doses containing appropriate quantities of the compounds of the present invention. The unit dosage form can be a packaged preparation, the package containing discrete quantities of preparation, such as packeted tablets, capsules, and powders in vials or ampoules. Also, the unit dosage form can be a capsule, tablet, cachet, or lozenge itself, or it can be the appropriate number of any of these in packaged form.

The compound of the present invention can be present in any suitable amount, and can depend on various factors including, but not limited to, weight and age of the subject, state of the disease, and the like as is known to those of ordinary skill in the art. Suitable dosage ranges for the compounds disclosed herein include from about 0.1 mg to about 10,000 mg, or about 1 mg to about 1000 mg, or about 10 mg to about 750 mg, or about 25 mg to about 500 mg, or about 50 mg to about 250 mg. Suitable dosages for the compound of the present invention include about 1 mg, 5, 10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 200, 300, 400, 500, 600, 700, 800, 900 or 1000 mg.

The compounds disclosed herein can be administered at any suitable frequency, interval and duration. For example, the compounds can be administered once an hour, or two, three or more times an hour, once a day, or two, three, or more times per day, or once every 2, 3, 4, 5, 6, or 7 days, so as to provide the preferred dosage level. When the compound of the present invention is administered more than once a day, representative intervals include 5, 10, 15, 20, 30, 45 and 60 minutes, as well as 1, 2, 4, 6, 8, 10, 12, 16, 20, and 24 hours. The compound of the present invention can be administered once, twice, or three or more times, for an hour, for 1 to 6 hours, for 1 to 12 hours, for 1 to 24 hours, for 6 to 12 hours, for 12 to 24 hours, for a single day, for 1 to 7 days, for a single week, for 1 to 4 weeks, for a month, for 1 to 12 months, for a year or more, or even indefinitely.

The composition can also contain other compatible therapeutic agents. The compounds described herein can be used in combination with one another, with other active agents known to be useful in modulating a glucocorticoid receptor, or with adjunctive agents that may not be effective alone, but may contribute to the efficacy of the active agent.

The compounds of the present invention can be co-administered with a second active agent. Co-administration includes administering the compound of the present invention and active agent within 0.5, 1, 2, 4, 6, 8, 10, 12, 16, 20, or 24 hours of each other. Co-administration also includes administering the compound of the present invention and active agent simultaneously, approximately simultaneously (e.g., within about 1, 5, 10, 15, 20, or 30 minutes of each other), or sequentially in any order. Moreover, the compound of the present disclosure and the active agent can each be administered once a day, or two, three, or more times per day so as to provide the preferred dosage level per day.

In some embodiments, co-administration can be accomplished by co-formulation, such as by preparing a single pharmaceutical composition including both the compound of the present disclosure and a second active agent. In other embodiments, the compound of the present disclosure and the second active agent can be formulated separately.

The disclosed compounds and the second active agent can be present in the compositions of the present disclosure in any suitable weight ratio, such as from about 1:100 to about 100:1 (w/w), or about 1:50 to about 50:1, or about 1:25 to about 25:1, or about 1:10 to about 10:1, or about 1:5 to about 5:1 (w/w). The compound of the present disclosure and the second active agent can be present in any suitable weight ratio, such as about 1:100 (w/w), 1:50, 1:25, 1:10, 1:5, 1:4, 1:3, 1:2, 1:1, 2:1, 3:1, 4:1, 5:1, 10:1, 25:1, 50:1 or 100:1 (w/w). Other dosages and dosage ratios of the compound of the present disclosure and the active agent are suitable in the compositions and methods disclosed herein.

Methods of Treatment

The solid forms of the compounds of the present disclosure, e.g., of compound 1, can be used for increasing neuronal plasticity. The compounds of the present disclosure can also be used to treat any brain disorder The solid forms of the present disclosure can also be used for increasing at least one of translation, transcription or secretion of neurotrophic factors.

In some embodiments, a compound of the present disclosure is used to treat neurological diseases. In some embodiments, the compounds have, for example, anti-addictive properties, antidepressant properties, anxiolytic properties, or a combination thereof. In some embodiments, the neurological disease is a neuropsychiatric disease. In some embodiments, the neuropsychiatric disease is a mood or anxiety disorder. In some embodiments, the neurological disease is a migraine, headaches (e.g., cluster headache), post-traumatic stress disorder (PTSD), anxiety, depression, neurodegenerative disorder, Alzheimer's disease, Parkinson's disease, psychological disorder, treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, stroke, traumatic brain injury, and addiction (e.g., substance use disorder). In some embodiments, the neurological disease is a migraine or cluster headache. In some embodiments, the neurological disease is a neurodegenerative disorder, Alzheimer's disease, or Parkinson's disease. In some embodiments, the neurological disease is a psychological disorder, treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, post-traumatic stress disorder (PTSD), addiction (e.g., substance use disorder), depression, or anxiety. In some embodiments, the neuropsychiatric disease is a psychological disorder, treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, post-traumatic stress disorder (PTSD), addiction (e.g., substance use disorder), depression, or anxiety. In some embodiments, the neuropsychiatric disease or neurological disease is post-traumatic stress disorder (PTSD), addiction (e.g., substance use disorder), schizophrenia, depression, or anxiety. In some embodiments, the neuropsychiatric disease or neurological disease is addiction (e.g., substance use disorder). In some embodiments, the neuropsychiatric disease or neurological disease is depression. In some embodiments, the neuropsychiatric disease or neurological disease is anxiety. In some embodiments, the neuropsychiatric disease or neurological disease is post-traumatic stress disorder (PTSD). In some embodiments, the neurological disease is stroke or traumatic brain injury. In some embodiments, the neuropsychiatric disease or neurological disease is schizophrenia.

In some embodiments, a compound of the present disclosure is used for increasing neuronal plasticity. In some embodiments, the compounds described herein are used for treating a brain disorder. In some embodiments, the compounds described herein are used for increasing at least one of translation, transcription, or secretion of neurotrophic factors.

In some embodiments, the present disclosure provides a method of treating a disease, including administering to a subject in need thereof, a therapeutically effective amount of a compound of the present disclosure. In some embodiments, the disease is a musculoskeletal pain disorder including fibromyalgia, muscle pain, joint stiffness, osteoarthritis, rheumatoid arthritis, muscle cramps. In some embodiments, the present invention provides a method of treating a disease of women's reproductive health including premenstrual dysphoric disorder (PMDD), premenstrual syndrome (PMS), post-partum depression, and menopause.

In some embodiments, the compounds of the present disclosure have activity as 5-HT_2A modulators. In some embodiments, the compounds of the present disclosure elicit a biological response by activating the 5-HT_2A receptor (e.g., allosteric modulation or modulation of a biological target that activates the 5-HT_2A receptor). 5-HT_2A agonism has been correlated with the promotion of neural plasticity (Ly et al., 2018). 5-HT_2A antagonists abrogate the neuritogenesis and spinogenesis effects of hallucinogenic compounds with 5-HT_2A agonist activity, for example, DMT, LSD, and DOI. In some embodiments, the compounds of the present disclosure are 5-HT_2A modulators and promote neural plasticity (e.g., cortical structural plasticity). In some embodiments, the compounds of the present disclosure are selective 5-HT_2A modulators and promote neural plasticity (e.g., cortical structural plasticity). In some embodiments, promotion of neural plasticity includes, for example, increased dendritic spine growth, increased synthesis of synaptic proteins, strengthened synaptic responses, increased dendritic arbor complexity, increased dendritic branch content, increased spinogenesis, increased neuritogenesis, or any combination thereof. In some embodiments, increased neural plasticity includes, for example, increased cortical structural plasticity in the anterior parts of the brain.

In some embodiments, the 5-HT_2A modulators (e.g., 5-HT_2A agonists) are non-hallucinogenic. In some embodiments, non-hallucinogenic 5-HT_2A modulators (e.g., 5-HT_2A agonists) are used to treat neurological diseases, which modulators do not elicit dissociative side-effects. In some embodiments, the hallucinogenic potential of the compounds described herein is assessed in vitro. In some embodiments, the hallucinogenic potential assessed in vitro of the compounds described herein is compared to the hallucinogenic potential assessed in vitro of hallucinogenic homologs. In some embodiments, the compounds described herein elicit less hallucinogenic potential in vitro than the hallucinogenic homologs.

In some embodiments, serotonin receptor modulators, such as modulators of serotonin receptor 2A (5-HT_2A modulators, e.g., 5-HT_2A agonists), are used to treat a brain disorder. The presently disclosed compounds can function as 5-HT_2A agonists alone, or in combination with a second therapeutic agent that also is a 5-HT_2A modulator. In such cases the second therapeutic agent can be an agonist or an antagonist. In some instances, it may be helpful administer a 5-HT_2A antagonist in combination with a compound of the present disclosure to mitigate undesirable effects of 5-HT_2A agonism, such as potential hallucinogenic effects. Serotonin receptor modulators useful as second therapeutic agents for combination therapy as described herein are known to those of skill in the art and include, without limitation, ketanserin, volinanserin (MDL-100907), eplivanserin (SR-46349), pimavanserin (ACP-103), glemanserin (MDL-11939), ritanserin, flibanserin, nelotanserin, blonanserin, mianserin, mirtazapine, roluperiodone (CYR-101, MIN-101), quetiapine, olanzapine, altanserin, acepromazine, nefazodone, risperidone, pruvanserin, AC-90179, AC-279, adatanserin, fananserin, HY10275, benanserin, butanserin, manserin, iferanserin, lidanserin, pelanserin, seganserin, tropanserin, lorcaserin, ICI-169369, methiothepin, methysergide, trazodone, cinitapride, cyproheptadine, brexpiprazole, cariprazine, agomelatine, setoperone, 1-(1-Naphthyl)piperazine, LY-367265, pirenperone, metergoline, deramciclane, amperozide, cinanserin, LY-86057, GSK-215083, cyamemazine, mesulergine, BF-1, LY-215840, sergolexole, spiramide, LY-53857, amesergide, LY-108742, pipamperone, LY-314228, 5-1R91150, 5-MeO-NBpBrT, 9-Aminomethyl-9,10-dihydroanthracene, niaprazine, SB-215505, SB-204741, SB-206553, SB-242084, LY-272015, SB-243213, SB-200646, RS-102221, zotepine, clozapine, chlorpromazine, sertindole, iloperidone, paliperidone, asenapine, amisulpride, aripiprazole, lurasidone, ziprasidone, lumateperone, perospirone, mosapramine, AMDA (9-Aminomethyl-9,10-dihydroanthracene), methiothepin, an extended-release form of olanzapine (e.g., ZYPREXA RELPREVV), an extended-release form of quetiapine, an extended-release form of risperidone (e.g., Risperdal Consta), an extended-release form of paliperidone (e.g., Invega Sustenna and Invega Trinza), an extended-release form of fluphenazine decanoate including Prolixin Decanoate, an extended-release form of aripiprazole lauroxil including Aristada, and an extended-release form of aripiprazole including Abilify Maintena, or a pharmaceutically acceptable salt, solvate, metabolite, deuterated analog, derivative, prodrug, or combinations thereof. In some embodiments, the serotonin receptor modulator used as a second therapeutic is pimavanserin or a pharmaceutically acceptable salt, solvate, metabolite, derivative, or prodrug thereof. In some embodiments, the serotonin receptor modulator is administered prior to a compound disclosed herein, such as about three or about one hours prior to administration of a compound disclosed herein. In some embodiments, the serotonin receptor modulator is administered at most about one hour prior to the presently disclosed compound. Thus, in some embodiments of combination therapy with the presently disclosed compounds, the second therapeutic agent is a serotonin receptor modulator. In some embodiments the second therapeutic agent serotonin receptor modulator is provided at a dose of from about 10 mg to about 350 mg. In some embodiments, the serotonin receptor modulator is provided at a dose of from about 20 mg to about 200 mg. In some embodiments, the serotonin receptor modulator is provided at a dose of from about 10 mg to about 100 mg. In certain such embodiments, the compound of the present disclosure is provided at a dose of from about 10 mg to about 100 mg, or from about 20 to about 200 mg, or from about 15 to about 300 mg, and the serotonin receptor modulator is provided at a dose of about 10 mg to about 100 mg.

In some embodiments, non-hallucinogenic 5-HT_2A modulators (e.g., 5-HT_2A agonists) are used to treat neurological diseases. In some embodiments, the neurological diseases comprise decreased neural plasticity, decreased cortical structural plasticity, decreased 5-HT_2A receptor content, decreased dendritic arbor complexity, loss of dendritic spines, decreased dendritic branch content, decreased spinogenesis, decreased neuritogenesis, retraction of neurites, or any combination thereof.

In some embodiments, non-hallucinogenic 5-HT_2A modulators (e.g., 5-HT_2A agonists) are used for increasing neuronal plasticity. In some embodiments, non-hallucinogenic 5-HT_2A modulators (e.g., 5-HT_2A agonists) are used for treating a brain disorder. In some embodiments, non-hallucinogenic 5-HT_2A modulators (e.g., 5-FIT_2A agonists) are used for increasing at least one of translation, transcription, or secretion of neurotrophic factors.

In some embodiments the presently disclosed compounds are given to patients in a low dose that is lower than would produce noticeable psychedelic effects but high enough to provide a therapeutic benefit. This dose range is predicted to be between 200 ug (micrograms) and 2 mg.

Methods for Increasing Neuronal Plasticity

Neuronal plasticity refers to the ability of the brain to change structure and/or function throughout a subject's life. New neurons can be produced and integrated into the central nervous system throughout the subject's life. Increasing neuronal plasticity includes, but is not limited to, promoting neuronal growth, promoting neuritogenesis, promoting synaptogenesis, promoting dendritogenesis, increasing dendritic arbor complexity, increasing dendritic spine density, and increasing excitatory synapsis in the brain. In some embodiments, increasing neuronal plasticity comprises promoting neuronal growth, promoting neuritogenesis, promoting synaptogenesis, promoting dendritogenesis, increasing dendritic arbor complexity, and increasing dendritic spine density.

In some embodiments, increasing neuronal plasticity by treating a subject with one or more of the disclosed compounds can treat neurodegenerative disorder, Alzheimer's, Parkinson's disease, psychological disorder, depression, addiction, anxiety, post-traumatic stress disorder, treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, stroke, traumatic brain injury, or substance use disorder.

In some embodiments, the present disclosure provides methods for increasing neuronal plasticity, comprising contacting a neuronal cell with a compound of the present disclosure. In some embodiments, increasing neuronal plasticity improves a brain disorder described herein.

In some embodiments, a compound of the present disclosure is used to increase neuronal plasticity. In some embodiments, the compounds used to increase neuronal plasticity have, for example, anti-addictive properties, antidepressant properties, anxiolytic properties, or a combination thereof. In some embodiments, decreased neuronal plasticity is associated with a neuropsychiatric disease. In some embodiments, the neuropsychiatric disease is a mood or anxiety disorder. In some embodiments, the neuropsychiatric disease includes, for example, migraine, cluster headache, post-traumatic stress disorder (PTSD), schizophrenia, anxiety, depression, and addiction (e.g., substance abuse disorder). In some embodiments, brain disorders include, for example, migraines, addiction (e.g., substance use disorder), depression, and anxiety.

In some embodiments, the experiment or assay to determine increased neuronal plasticity of any compound of the present disclosure is a phenotypic assay, a dendritogenesis assay, a spinogenesis assay, a synaptogenesis assay, a Sholl analysis, a concentration-response experiment, a 5-HT_2A agonist assay, a 5-HT_2A antagonist assay, a 5-HT_2A binding assay, or a 5-HT_2A blocking experiment (e.g., ketanserin blocking experiments). In some embodiments, the experiment or assay to determine the hallucinogenic potential of any compound of the present invention is a mouse head-twitch response (HTR) assay.

In some embodiments, the present disclosure provides a method for increasing neuronal plasticity, comprising contacting a neuronal cell with a compound disclosed herein.

Methods of Treating a Brain Disorder

In some embodiments, the present disclosure provides a method of treating a disease, including administering to a subject in need thereof, a therapeutically effective amount of a compound of the present disclosure. In some embodiments, the disease is a musculoskeletal pain disorder including fibromyalgia, muscle pain, joint stiffness, osteoarthritis, rheumatoid arthritis, muscle cramps. In some embodiments, the present disclosure provides a method of treating a disease of women's reproductive health including premenstrual dysphoric disorder (PMDD), premenstrual syndrome (PMS), post-partum depression, and menopause. In some embodiments, the present disclosure provides a method of treating a brain disorder, including administering to a subject in need thereof, a therapeutically effective amount of a compound of the present disclosure.

In some embodiments, the present disclosure provides a method of treating a brain disorder with combination therapy, including administering to a subject in need thereof, a therapeutically effective amount of a compound of the present disclosure and at least one additional therapeutic agent.

In some embodiments, 5-HT_2A modulators (e.g., 5-HT_2A agonists) are used to treat a brain disorder. In some embodiments, the brain disorders comprise decreased neural plasticity, decreased cortical structural plasticity, decreased 5-HT_2A receptor content, decreased dendritic arbor complexity, loss of dendritic spines, decreased dendritic branch content, decreased spinogenesis, decreased neuritogenesis, retraction of neurites, or any combination thereof.

In some embodiments, a compound of the present disclosure is used to treat brain disorders. In some embodiments, the compounds have, for example, anti-addictive properties, antidepressant properties, anxiolytic properties, or a combination thereof. In some embodiments, the brain disorder is a neuropsychiatric disease. In some embodiments, the neuropsychiatric disease is a mood or anxiety disorder. In some embodiments, brain disorders include, for example, migraine, cluster headache, post-traumatic stress disorder (PTSD), anxiety, depression, panic disorder, suicidality, schizophrenia, and addiction (e.g., substance abuse disorder). In some embodiments, brain disorders include, for example, migraines, addiction (e.g., substance use disorder), depression, and anxiety.

In some embodiments, the present disclosure provides a method of treating a brain disorder, comprising administering to a subject in need thereof a therapeutically effective amount of a compound disclosed herein.

In some embodiments, the brain disorder is a neurodegenerative disorder, Alzheimer's, Parkinson's disease, psychological disorder, depression, addiction, anxiety, post-traumatic stress disorder, treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, stroke, traumatic brain injury, or substance use disorder.

In some embodiments, the brain disorder is a neurodegenerative disorder, Alzheimer's, or Parkinson's disease. In some embodiments, the brain disorder is a psychological disorder, depression, addiction, anxiety, or a post-traumatic stress disorder. In some embodiments, the brain disorder is depression. In some embodiments, the brain disorder is addiction. In some embodiments, the brain disorder is treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, stroke, traumatic brain injury or substance use disorder. In some embodiments, the brain disorder is treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, or substance use disorder. In some embodiments, the brain disorder is stroke or traumatic brain injury. In some embodiments, the brain disorder is treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, or substance use disorder. In some embodiments, the brain disorder is schizophrenia. In some embodiments, the brain disorder is alcohol use disorder.

In some embodiments, the method further comprises administering one or more additional therapeutic agent that is lithium, olanzapine (Zyprexa), quetiapine (Seroquel), risperidone (Risperdal), ariprazole (Abilify), ziprasidone (Geodon), clozapine (Clozaril), divalproex sodium (Depakote), lamotrigine (Lamictal), valproic acid (Depakene), carbamazepine (Equetro), topiramate (Topamax), levomilnacipran (Fetzima), duloxetine (Cymbalta, Yentreve), venlafaxine (Effexor), citalopram (Celexa), fluvoxamine (Luvox), escitalopram (Lexapro), fluoxetine (Prozac), paroxetine (Paxil), sertraline (Zoloft), clomipramine (Anafranil), amitriptyline (Elavil), desipramine (Norpramin), imipramine (Tofranil), nortriptyline (Pamelor), phenelzine (Nardil), tranylcypromine (Parnate), diazepam (Valium), alprazolam (Xanax), or clonazepam (Klonopin).

In certain embodiments of the method for treating a brain disorder with a solid form disclosed herein, a second therapeutic agent that is an empathogenic agent is administered. Examples of suitable empathogenic agents for use in combination with the present solid forms include phenethylamines, such as 3,4-methylene-dioxymethamphetamine (MDMA), and analogs thereof. Other suitable empathogenic agents for use in combination with the presently disclosed compounds include, without limitation,

• N-Allyl-3,4-methylenedioxy-amphetamine (MDAL)
• N-Butyl-3,4-methylenedioxyamphetamine (MDBU)
• N-Benzyl-3,4-methylenedioxyamphetamine (MDBZ)
• N-Cyclopropylmethyl-3,4-methylenedioxyamphetamine (MDCPM)
• N,N-Dimethyl-3,4-methylenedioxyamphetamine (MDDM)
• N-Ethyl-3,4-methylenedioxyamphetamine (MDE; MDEA)
• N-(2-Hydroxyethyl)-3,4-methylenedioxy amphetamine (MDHOET)
• N-Isopropyl-3,4-methylenedioxyamphetamine (M DIP)
• N-Methyl-3,4-ethylenedioxyamphetamine (MDMC)
• N-Methoxy-3,4-methylenedioxyamphetamine (MDMEO)
• N-(2-Methoxyethyl)-3,4-methylenedioxyamphetamine (MDMEOET)
• alpha,alpha,N-Trimethyl-3,4-methylenedioxyphenethylamine (MDMP;
• 3,4-M ethylenedi oxy-N-methyl phentermine)
• N-Hydroxy-3,4-methylenedioxyamphetamine (MDOH)
• 3,4-Methylenedioxyphenethylamine (MDPEA)
• alpha,alpha-Dimethyl-3,4-methylenedioxyphenethylamine (MDPH; 3,4-methylenedioxyphentermine)
• N-Propargyl-3,4-methylenedioxyamphetamine (MDPL)
• Methylenedioxy-2-aminoindane (MDAI)
• 1,3-Benzodioxolyl-N-methylbutanamine (MBDB),
• 3,4-methylenedioxy-N-methyl-α-ethylphenylethylamine
• 3,4-Methylenedioxyamphetamine MDA
• Methyl one (also known as “3,4-methylenedi oxy-N-methyl cathinone
• Ethylone, also known as 3,4-methylenedioxy-N-ethylcathinone
• GHB or Gamma Hydroxybutyrate or sodium oxybate
• N-Propyl-3,4-methylenedioxyamphetamine (MDPR), and the like.

In some embodiments, the compounds of the present disclosure are used in combination with the standard of care therapy for a neurological disease described herein. Non-limiting examples of the standard of care therapies, may include, for example, lithium, olanzapine, quetiapine, risperidone, ariprazole, ziprasidone, clozapine, divalproex sodium, lamotrigine, valproic acid, carbamazepine, topiramate, levomilnacipran, duloxetine, venlafaxine, citalopram, fluvoxamine, escitalopram, fluoxetine, paroxetine, sertraline, clomipramine, amitriptyline, desipramine, imipramine, nortriptyline, phenelzine, tranylcypromine, diazepam, alprazolam, clonazepam, or any combination thereof. Nonlimiting examples of standard of care therapy for depression are sertraline, fluoxetine, escitalopram, venlafaxine, or aripiprazole. Non-limiting examples of standard of care therapy for depression are citralopram, escitalopram, fluoxetine, paroxetine, diazepam, or sertraline. Additional examples of standard of care therapeutics are known to those of ordinary skill in the art.

Methods of Increasing at Least One of Translation, Transcription, or Secretion of Neurotrophic Factors

Neurotrophic factors refers to a family of soluble peptides or proteins which support the survival, growth, and differentiation of developing and mature neurons. Increasing at least one of translation, transcription, or secretion of neurotrophic factors can be useful for, but not limited to, increasing neuronal plasticity, promoting neuronal growth, promoting neuritogenesis, promoting synaptogenesis, promoting dendritogenesis, increasing dendritic arbor complexity, increasing dendritic spine density, and increasing excitatory synapsis in the brain. In some embodiments, increasing at least one of translation, transcription, or secretion of neurotrophic factors can increasing neuronal plasticity. In some embodiments, increasing at least one of translation, transcription, or secretion of neurotrophic factors can promoting neuronal growth, promoting neuritogenesis, promoting synaptogenesis, promoting dendritogenesis, increasing dendritic arbor complexity, and/or increasing dendritic spine density.

In some embodiments, 5-HT_2A modulators (e.g., 5-HT_2A agonists) are used to increase at least one of translation, transcription, or secretion of neurotrophic factors. In some embodiments, a compound of the present disclosure is used to increase at least one of translation, transcription, or secretion of neurotrophic factors. In some embodiments, increasing at least one of translation, transcription or secretion of neurotrophic factors treats a migraine, headaches (e.g., cluster headache), post-traumatic stress disorder (PTSD), anxiety, depression, neurodegenerative disorder, Alzheimer's disease, Parkinson's disease, psychological disorder, treatment resistant depression, suicidal ideation, major depressive disorder, bipolar disorder, schizophrenia, stroke, traumatic brain injury, and addiction (e.g., substance use disorder).

In some embodiments, the experiment or assay used to determine increase translation of neurotrophic factors includes ELISA, western blot, immunofluorescence assays, proteomic experiments, and mass spectrometry. In some embodiments, the experiment or assay used to determine increase transcription of neurotrophic factors includes gene expression assays, PCR, and microarrays. In some embodiments, the experiment or assay used to determine increase secretion of neurotrophic factors includes ELISA, western blot, immunofluorescence assays, proteomic experiments, and mass spectrometry.

In some embodiments, the present disclosure provides a method for increasing at least one of translation, transcription or secretion of neurotrophic factors, comprising contacting a neuronal cell with a compound disclosed herein.

Examples

Example 1

Polymorph Production

The active pharmaceutical ingredient (API), (R)-1-(5-methoxy-1H-indol-1-yl)N,N-dimethylpropan-2-amine fumarate, is characterized to evaluate its physical properties. The evaluation is performed by X-ray powder diffraction (XRPD), polarized light microscopy (PLM), differential scanning calorimetry (DSC), thermogravimetry (TG), dynamic vapor sorption/desorption (DVS), and/or solubility testing in organic solvents, water, and mixed solvent systems. XRPD data is used to assess crystallinity. PLM data is used to evaluate crystallinity and particle size/morphology. DSC data is used to evaluate melting point, thermal stability, and crystalline form conversion. TG data is used to evaluate if the API is a solvate or hydrate, and to evaluate thermal stability. DVS data is used to evaluate hygroscopicity of the API and if hydrates can be formed at high relative humidity. About 10 to 15 solvents may be selected from the list below, based on their properties (polarity, dielectric constant and dipole moment).

TABLE 55
Solvents
acetic acid                      n-heptane
acetone                          n-hexane
acetonitrile                     1,1,1,3,3,3-hexafluoro-2-propanol
benzyl alcohol                   isobutanol (2-methyl-1-propanol)
1-butanol                        isopentanol (3-methyl-1-butanol)
2-butanol                        isopropyl alcohol (2-propanol)
butyl acetate                    isopropylbenzene (cumene)
t-butyl methyl ether             methanol
chlorobenzene                    methoxybenzene (anisole)
chloroform                       methyl acetate
di(ethylene glycol)              methyl ethyl ketone (2-butanone)
dichloromethane                  methyl isobutyl ketone
diethyl ether                    nitromethane
diethylamine                     N-methyl-2-pyrrolidone (NMP)
Dimethylacetamide (DMA)          1-octanol
diisopropyl ether                1-pentanol
N,N-dimethyl-formamide (DMF)     1-propanol
dimethyl sulfoxide               perfluorohexane
1,4-dioxane                      propyl acetate
1,2-ethanediol (ethylene glycol) 1,1,2,2-tetrachloroethane
ethanol                          tetrahydrofuran
ethanolamine                     toluene
2-ethoxyethanol (Cellusolve)     1,1,1-trichloroethane
ethyl acetate                    2,2,2-trifluoroethanol
ethyl formate                    water
formic acid                      o-xylene (1,2-dimethylbenzene)
glycerol                         p-xylene (1,4-dimethylbenzene)

The information obtained is used for designing the subsequent polymorph screen. Solvents are used as a single solvent or as solvent mixtures, some containing water. The techniques used for the polymorph screen are chosen based on the solvent selected and properties of the API. The following techniques (or a combination of techniques) may be used for the polymorph screening:

• • API is dissolved in a solvent or mixture of solvents, and the solvents are evaporated at different rates (slow evaporation or fast evaporation) and at different temperatures (ambient or elevated).
  • API is dissolved in a solvent or mixture of solvents (at ambient temperature or an elevated temperature), and the final solution is cooled (between −78° C. to 20° C.). The cooling method can be a fast cooling (by plunging the sample to an ice bath or a dry ice/acetone bath), or slow cooling. The solids formed will be recovered by filtration and dried (air dried or vacuum dried).
  • API is dissolved in a solvent or mixture of solvents, and an antisolvent is added to precipitate the salt. The solids formed will be recovered by filtration and dried (air dried or vacuum dried).
  • API is added to a solvent or mixture of solvents, where the API is not fully dissolved. The slurry will be agitated at different temperatures for a number of days. The solids formed will be recovered by filtration and (air dried or vacuum dried).
  • API is milled (by mechanical milling or by mortar and pestle), with a drop of solvent, or without any solvent.
  • API is melted and cooled (at different cooling rates, fast and slow, and cooled to different temperatures) to obtain solids.
  • API is suspended in a solvent or mixture of solvents, and the slurry is placed in a heating/cooling cycle for multiple cycles. The remaining solids after the final cooling cycle will be filtered and (air dried or vacuum dried).
  • API is processed to obtain an amorphous form (by melting, milling, solvent evaporation, spray drying or lyophilization). The amorphous form will then be exposed to elevated humidity (or elevated temperature, or combination thereof), or to solvent vapors for extended period of days.
  • API is exposed to elevated humidity (or elevated temperature, or combination thereof), or to solvent vapors for extended period of days.
  • Two or more polymorphs of the API are mixed in a solvent or solvent systems (some solvent mixtures containing variable amount of water) to obtain a slurry, and the slurry will be agitated (at various temperatures) for an extended period of time (days). The solvent system used can be pre-saturated with the API. The final solids will be filtered and dried (air dried or vacuum dried).
  • API is heated to a specific temperature and cooled (at ambient conditions or in a dry box).

The solids obtained are analyzed by XRPD to determine if they are crystalline and, if so, by DSC to see the melting point and by TG to see if they are hydrated/solvated, and by ¹H NMR spectroscopy to ensure chemical integrity. KF water titration is performed on forms that are hydrated. DVS analysis is performed to evaluate hygroscopicity of the form and if hydrated form is present. In particular variable temperature analyses, including variable temperature XRPD, are performed to assess the stability of each physical form as well as its crystallinity.

Differential scanning calorimetry (DSC) thermograms are obtained using a DSC Q 100 (TA Instruments, New Castle, DE). The temperature axis and cell constant of the DSC cell are calibrated with indium (10 mg, 99.9% pure, melting point 156.6° C., heat of fusion 28.4 J/g). Samples (2.0-5.0 mg) are weighed in aluminum pans on an analytical balance.

Aluminum pans without lids are used for the analysis. The samples are equilibrated at 25° C. and heated to 250-300° C. at a heating rate of 10° C./min under continuous nitrogen flow. TG analysis of the samples is performed with a Q 50(TA Instruments, New Castle, DE). Samples (2.0-5.0 mg) are analyzed in open aluminum pans under a nitrogen flow (50 mL/min) at 25° C. to 210° C. with a heating rate of 10° C./min.

The sample for moisture analysis is allowed to dry at 25° C. for up to 4 hours under a stream of dry nitrogen. The relative humidity is then increased stepwise from 10 to 90% relative humidity (adsorption scan) allowing the sample to equilibrate for a maximum of four hours before weighing and moving on to the next step. The desorption scan is measured from 85 to 0% relative humidity with the same equilibration time. The sample is then dried under a stream of dry nitrogen at 80° C. for 2 hours or until no weight loss is observed.

X-ray powder diffraction data are collected using a Miniflex Tabletop XRD system (Rigaku/MSC, The Woodlands, TX) from 5° to 45° 2θ with steps of 0.1°, and the measuring time is 1.0 second/step. All samples are ground to similar size before exposure to radiation. The powder samples are illuminated using CuKα radiation (λ, =1.54056 Å) at 30 kV and 15 mA.

Variable temperature XRPD data are collected using a Huber Imaging Plate Guinier Camera 670 employing Ni-filtered CuKα₁ radiation (λ, =1.5405981 Å) produced at 40 kV and 20 mA by a Philips P W 1120/00 generator fitted with a Huber long fine-focus tube PW2273/20 and a Huber Guinier Monochromator Series 611/15. The original powder is packed into a Lindemann capillary (Hilgenberg, Germany) with an internal diameter of 1 mm and a wall thickness of 0.01 mm. The sample is heated at an average rate of 5 Kmin⁻¹ using a Huber High Temperature Controller HTC 9634 unit with the capillary rotation device 670.2. The temperature is held constant at selected intervals for 10 min while the sample is exposed to X-rays and multiple scans are recorded. A 2θ-range of 4.00-100.0° is used with a step size of 0.005° 2θ.

In certain embodiments wherein the solid form is a solvate, such as a hydrate, the DSC thermogram reveals endothermic transitions. In accordance with the observed DSC transitions, TGA analysis indicates stages of weight change corresponding to desolvation or dehydration and/or melting of the sample. In the case of hydrates, these results are in harmony with Karl Fisher titration data which indicate the water content of the sample.

The moisture sorption profile of a sample can be generated to assess the stability of a solid form is stable over a range of relative humidities. In certain embodiments, the change in moisture content over 10.0 to 95.0% relative humidity is small. In other embodiments the change in moisture content over 10.0 to 95.0%) relative humidity is reversible.

In certain embodiments, the XRPD pattern of a sample of solid form indicates that the sample has a well-defined crystal structure and a high degree of crystallinity.

Example 2

Evaluation of Metabolic Stability in Human Liver Microsomes

Microsomal Assay: Human liver microsomes (20 mg/mL) are obtained. β-nicotinamide adenine dinucleotide phosphate, reduced form (NADPH), magnesium chloride (MgCl₂), and dimethyl sulfoxide (DMSO) are purchased from Sigma-Aldrich.

Determination of Metabolic Stability: 7.5 mM stock preparations of test compounds of the disclosed compounds are prepared in a suitable solvent, such as DMSO. The 7.5 mM stock preparations are diluted to 12.5-50 μM in acetonitrile (ACN). The 20 mg/mL human liver microsomes are diluted to 0.625 mg/mL in 0.1 M potassium phosphate buffer, pH 7.4, containing 3 mM MgCl₂. The diluted microsomes are added to wells of a 96-well deep-well polypropylene plate in triplicate. A 10 pL aliquot of the 12.5-50 μM test compound is added to the microsomes and the mixture is pre-warmed for 10 minutes. Reactions are initiated by addition of pre-warmed NADPH solution. The final reaction volume is 0.5 mL and contains 4.0 mg/mL human liver microsomes, 0.25 μM test compound, and 2 mM NADPH in 0.1 M potassium phosphate buffer, pH 7.4, and 3 mM MgCl₂. The reaction mixtures are incubated at 37° C., and 50 pL aliquots are removed at 0, 5, 10, 20, and 30 minutes and added to shallow-well 96-well plates which contain 50 pL of ice-cold ACN (acetonitrile) with internal standard to stop the reactions. The plates are stored at 4° C. for 20 minutes after which 100 pL of water is added to the wells of the plate before centrifugation to pellet precipitated proteins. Supernatants are transferred to another 96-well plate and analyzed for amounts of parent remaining by LC-MS/MS using an Applied Bio-systems API 4000 mass spectrometer. The same procedure is followed for the non-deuterated counterpart of the compound and the positive control, 7-ethoxycoumarin (1 μM). Testing is done in triplicate.

Data analysis: The in vitro Th_1/2s for test compounds are calculated from the slopes of the linear regression of % parent remaining (In) vs incubation time relationship.

in vitro T_1/2,=0.693/k

k=−[slope of linear regression of % parent remaining (In) vs incubation time]

The apparent intrinsic clearance is calculated using the following equation:

CL_int(mL/min/kg)=(0.693/in vitro T)(Incubation Volume/mg of microsomes)(45 mg microsomes/gram of liver)(20 gm of liver/kg b.w.)

Data analysis is performed using Microsoft Excel Software.

In these experiments, values equal to or more than a 15% increase in half-life are considered to be a significant difference if the apparent intrinsic clearance ratio (comparator compound/new solid form) is >1.15 or <0.85, then there is considered to be significant differentiation.

Example 3

Oral Bioavailability in Rats

Pharmacokinetics of test articles following a single intravenous or oral administration in rats: A pharmacokinetic (PK) study is performed in three male Sprague-Dawley (SD) rats following intravenous (IV) and oral (PO) administration of a compound disclosed herein. Test compounds are measured in plasma.

A detailed description of the in vivo methods:

Rat Strain

Rats used in these studies are supplied by Charles River (Margate UK) and are specific pathogen free. The strain of rats is Sprague Dawley. Male rats are 175-225 g on receipt and are allowed to acclimatize for 5-7 days.

Animal Housing

Rats are group housed in sterilised individual ventilated cages that expose the animals at all times to HEPA filtered sterile air. Animals will have free access to food and water (sterile) and will have sterile aspen chip bedding (at least once weekly). The room temperature is 22° C. +/−1° C., with a relative humidity of 60% and maximum background noise of 56 dB. Rats are exposed to 12-hour light/dark cycles.

Treatment

The test articles are administered in a suitable dose volume for intravenous (IV) or (PO) for oral routes of administration.

Single IV/PO dose pharmacokinetics study in rats

Each test article is administered as a single IV bolus (via a lateral tail-vein) or a single oral gavage in cohorts of 3 rats per route. Following dose administrations, a 100 μL whole blood sample (EDTA) is collected via the tail-vein at time-points described in Table 1. The blood is centrifuged to separate plasma. Approximately 40 μL of plasma is dispensed per time-point, per rat, in a 96 well plate and frozen until analysis. Bioanalysis is carried out on plasma samples.

Dose Formulation Samples

Dose formulation samples are diluted in two steps with 50:50 (v/v) methanol/water to an appropriate concentration, then diluted 10:90 (v/v) with control matrix to match to the calibration standard in plasma.

Sample Extraction Procedure

Calibration and QC standards, incurred samples, blank matrix and dose formulation samples are extracted by protein precipitation, via the addition of a bespoke acetonitrile (ACN)-based Internal Standard (IS) solution, containing several compounds and including Metoprolol and Rosuvastatin, both of which are monitored for during analysis. Following centrifugation, a 40 μL aliquot of supernatant is diluted by the addition of 80 μL water. The prepared sample extracts are analysed by LC-MS/MS. In one embodiment, the oral bioavailability of a disclosed crystalline solid form is superior to an amorphous or known crystalline form.

Example 4

Solubility Results and Crystallization of Fumarate Salt

Assessment of solubility according to Example 1 demonstrated that the fumarate salt is soluble in many solvents at least at the 5 vol (200 mg/mL) concentration, including acetone, acetonitrile, butanol, dichloromethane, ethanol, methanol, methyl ethyl ketone, tetrahydrofuran and water at 20 degrees Celsius; in isopropyl alcohol (IPA) and dioxane at 40 degrees Celsius, and in 2-methyl tetrahydrofuran (2-MeTHF) at reflux. The salt compound also dissolved in refluxing methylisobutyketone (MIBK) at 15 vol concentration. Consistent with Example 1, the solutions formed were cooled and the IPA, 2-MeTHF and MIBK solutions yielded solid material on cooling. The solid product obtained from MIBK was analyzed by XRPD, TG and ¹H NMR—the XRPD diffractogram is provided as FIG. 1 and the ¹H NMR spectrum is provided as FIG. 2.

Example 5

Production of the Hemifumarate Salt

This example describes the production of (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine hemifumarate. (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dim ethyl propan-2-amine fumarate and free base compound in equimolar amounts were dissolved in 10 vol methanol with heating. The resultant solution was concentrated to dryness and the solid residue was analyzed by ¹H NMR, XRPD and DSC. The ¹H NMR spectrum for the hemifumarate product is provided as FIG. 3. This sample comprised crystalline material having Pattern 2, as illustrated in FIG. 4.

Example 6

Production of Compound 1 Fumarate and Hemifumarate Solid Forms

This example describes the production of Compound 1 fumarate solid forms using suspension (slurry) equilibration consistent with Example 1. Stable suspensions were observed after stirring for 3-7 days at 20° C. in five solvents: Stirring of the fumarate salt with MTBE (methyl-t-butyl ether), ethyl acetate, isopropyl acetate, methyl ethyl ketone and 2-methyl tetrahydrofuran yielded solid forms. The solid forms were isolated from these five solvents via centrifugation and were characterized by XRPD, TGA, DSC and ¹H NMR. Isolation from MTBE according to this example yielded Compound 1 fumarate comprising Pattern 3b as illustrated in FIG. 5. Isolation from isopropyl acetate yielded pattern 3a when wet and upon drying Pattern 1 as illustrated in FIG. 6. Isolation from ethyl acetate gave the same Patterns as from isopropyl acetate. Isolation from methyl ethyl ketone yielded material having XRPD Pattern 6, which, upon drying under nitrogen yielded material having Pattern 1 as illustrated in FIG. 8. Isolation from 2-methyl THE yielded a solid sample comprising crystalline material of Pattern 1.

Hemifumarate prepared according to Example 5 was suspended in MTBE and stirred, yielding, following isolation via centrifugation and drying, crystalline hemifumarate of Pattern 4 as illustrated in FIG. 7.

Example 7 Screening for Crystalline Polymorphs of Compound 1 Fumarate Salt

Summary

Compound 1 was supplied as the amorphous Compound 1⋅Fumarate salt form (batch: 1). The fumarate stoichiometry was 1.0 API to 1.0 fumaric acid. Fumaric acid is a 1,4-dicarboxylic acid and is mono-salified; hence, the salt as supplied, is technically a hydrogen fumarate acid salt. There was a risk that compound 1⋅Fumarate may re-proportionate into compound 1·0.5Fumarate+0.5 fumaric acid; or disproportionate into discrete non-ionised entities, i.e., compound 1·Native+fumaric acid. Therefore, any manufacturing crystallisation involved complete dissolution of each precursor, otherwise there was a risk that regions of compound 1⋅Fumarate, compound 1⋅0.5Fumarate, non-ionised compound 1 and non-ionised fumaric acid may occur in the solid phase. Chemically, the pendant, dimethyl amine of compound 1, is incapable of Michael addition to the fumaric acid counter ion. Cleavage of the methoxy substituent on the indole ring of compound 1, was judged unlikely; however, may only occur at v. low pH. Esterification of the fumaric acid counterion by several alcohols was possible. Researchers were cognizant of this and monitored accordingly by ¹H NMR.

Important Findings Summary

• • Compound 1 ⋅MonoFumarate Form A (previously assigned Pattern #1) was the stable form that was selected to be incorporated into the salt screen stability evaluation panel.
  • Monofumarate Form A was a single phase and was accessible via crystallisation from multiple solvents.
  • Compound 1⋅MonoFumarate Form B (previously Pattern #3b), exhibited a shallow melt event and is most likely a metastable phase; several attempts were made to re-prepare Form B and Form A was always generated instead.
  • Two forms of Compound 1⋅0.5Fumarate (hemi-salt) were identified, these were assigned Form I and Form II.
  • The remainder of the products were classified Patterns' and corresponded to mixed phases that exhibited multiple thermal events.
  • Analytical data collected for Monofumarate Form A, Hemifumarate Form I, Monofumarate Form B, and Hemifumarate Form II are summarized in

TABLE 56
Pattern summary table
	Initial	1HNMR	TGA
Final	designation	Solvent	API	Stoichiometry	TGA		DSC
solvent	by XRPD	content	molecular	Compound 1 to	(%	TGA	Single melt	Thermal	Form
contact	Pattern	(% w/w)	i.d.	Fumaric acid	Δ wt.)	(comment)	event?	events	assignment
Stirred	Pattern #1	iPAC	Consistent	1 to 1	Ablated	Anhydrous	Yes	−50.05 Jg{circumflex over ( )} −1	Form A
in iPAC		(0.5)	with		(−59.4%			(110.98° C.),
			compound		w/w,			−218.11 Jg{circumflex over ( )}
			1		208.6° C.)			−1 (198.22° C.)
Stirred	Pattern #2	tBME	Consistent	2 to 1	Ablated	Anhydrous	No, one	−52.66 Jg{circumflex over ( )} −1	Form I
in tBME		(1.3)	with		(−65.5%		sharp	(91.5° C.),
		MeOH	compound		w/w,		endotherm	−256.86 Jg{circumflex over ( )}
		(0.5)	1		200.4° C.		early on	−1 (248.07° C.)
							with a
							broad peak
							later
Stirred	Pattern #3b	tBME	Consistent	1 to 1	Ablated	Anhydrous	Yes, but	−22.04 Jg{circumflex over ( )} −1	Form B
in tBME		(0.1)	with		(−62.7%		shallow and	(56.3° C.),
			compound		w/w,		broad
					208.7° C.)
Stirred	Pattern #4	IBME (n.	Consistent	2 to 1	Ablated	Anhydrous	Yes	−5.41 Jg{circumflex over ( )} −1	Form II
in tBME		d.)	with		(−69.5%			(90.46° C.)
			compound		w/w,
			1		216.4° C.)

• • No evidence for hydrate formation was observed, including several weeks at 40° C./75% RH and aqueous slurries.
  • DVS mass per unit time equilibrated @ dm/dt (0.0002%/min) on Form A was performed (specimen was deliquescent by DVS).
  • SCXRD of Form A was solved and reported.

TABLE 56
Pattern summary table
	Initial	1H NMR	TGA
Final	designation	Solvent	API	Stoichiometry	TGA		DSC	Form
solvent	by XRPD	content	molecular	Compound 1 to	(%	TGA	Single melt	Thermal	assign-
contact	Pattern	(% w/w)	i.d.	Fumaric acid	Δ wt.)	(comment)	event?	events	ment
Stirred	Pattern #1	iPAC	Consistent	1 to 1	Ablated	Anhydrous	Yes	−50.05 Jg{circumflex over ( )} −1	Form A
in iPAC		(0.5)	with		(−59.4%			(110.98° C.),
			compound		w/w,			−218.11 Jg{circumflex over ( )} −1
			1		208.6° C.)			(198.22° C.)
Stirred	Pattern #2	tBME	Consistent	2 to 1	Ablated	Anhydrous	No, one	−52.66 Jg{circumflex over ( )} −1	Form I
in tBME		(1.3)	with		(−65.5%		sharp	(91.5° C.),
		MeOH	compound		w/w,		endotherm	−256.86 Jg{circumflex over ( )} −1
		(0.5)	1		200.4° C.)		early on	(248.07° C.)
							with a
							broad peak
							later
Stirred	Pattern #3b	tBME	Consistent	1 to 1	Ablated	Anhydrous	Yes, but	−22.04 Jg{circumflex over ( )} −1	Form B
in tBME		(0.1)	with		(−62.7%		shallow	(56.3° C.),
			compound		w/w,		and
			1		208.7° C.)		broad
Stirred	Pattern #4	tBME	Consistent	2 to 1	Ablated	Anhydrous	Yes	−5.41 Jg{circumflex over ( )} −1	Form II
in tBME		(n. d.)	with		(−69.5%			(90.46° C.)
			compound		w/w,
			1		216.4° C.)

TABLE 57
Summary of the powder patterns identified during polymorph screen and accompanied by their analytical data.
		DSC			′H NMR
			Thermal	TGA	′H NMR	′H NMR	Form
Designation	Solvent	Event	measurements	% Δ wt	Comment	(stoich.)	(solvent)	Assignment
Amorphous	DCM &	Complex	Integral	−1.12 Jg{circumflex over ( )} −1	−4.2%, 120°	Stepped	1 to 1	DCM	Amorphous
	THF	thermal	Onset	120.22° C.	C.;	baseline	(API to	(1.2% w/w) +
		profile	Peak	122.00° C.	(−53.0% w/w,	(de-	fumarate)	THF
			Endset	125.46° C.	218.8° C.)	solvation)		(1.5% w/w)
PATTERN	Various	Single	Integral	−50.02 Jg{circumflex over ( )} −1	Ablated	Flat	1 to 1	iPrOAc	Form A
#1	(e.g. iPAc,	melt	Onset	110.98° C.	(−59.4% w/w,	baseline	(API to	(0.5% w/w)
	acetone,		Peak	116.17° C.	208.6° C.)	(anhydrous)	fumarate)
	2Me—THF,		Endset	118.11° C.
	CPME,
	MEK)
PATTERN	IPA	Single	Integral	−52.66 Jg{circumflex over ( )} −1			2 to 1	tBME	Form I
#2		melt	Onset	87.48° C.			(API to	(1.3% w/w),
			Peak	91.50° C.	Ablated	Flat	fumarate)	methanol
			Endset	94.55° C.	(−65.5% w/w,	baseline		(0.5%
					200.4° C.)	(anhydrous)		w/w)
PATTERN	EtOAc	—	—	—		—	—	—	N/A
#3a									(Pattern
									#3a)
	EtOAc	Small	Integral	−10.53 Jg{circumflex over ( )} −1	Ablated	Flat	1 to 1	etOAC	Form A
		secondary	Onset	67.88° C.	(−60.7% w/w,	baseline	(API to	(0.6% w/w)
		and main	Peak	76.50° C.	208.5° C.)	(anhydrous)	fumarate)
		single	Endset	81.04° C.
	EtOAc	melt	Integral	−35.88 Jg{circumflex over ( )} −1
			Onset	112.05° C.
			Peak	114.33° C.
			Endset	117.58° C.
PATTERN	tBME	Single	Integral	−22.04 Jg{circumflex over ( )} −1	Ablated	Flat	1 to 1	tBME	Form B
#3b		event	Onset	56.30° C.	(−62.7% w/w,	baseline	(API to	(0.1% w/w)	attempts to
			Peak	66.17° C.	208.4° C.)	(anhydrous)	fumarate)		reprepare
			Endset	71.17° C.					gave
									Form A)
PATTERN	tBME	Single	Integral	−56.11 Jg{circumflex over ( )} −1	Ablated	Flat	2 to 1	Methanol	Form II
#4		melt	Onset	90.46° C.	(−69.4% w/w,	baseline	(API to	n.d., tBME
			Peak	97.17° C.	216.4° C.)	(anhydrous)	fumarate)	(0.06%
			Endset	101.96° C.				w/w)
PATTERN	MIBK	—	—	—		—	—	—	N/A
#5	(20.0 vol),								(Pattern #5)
	crystallised
	on cooling.
	Oven dried	—	—	—	De-solv.	Stepped	1 to 1	MIBK	Not
	T1 and				(−12.7% w/w,	baseline	(API to	(11.1% w/w);	analysed
	converted				126.2° C.);	(de-	fumarate);	(22.3%	(attempts to
	to T2 when				Ablated	solvation)	hemi-	w/w th.,	reprepare
	dried.				(−60.1% w/w,		solvate	unary	gave
					218.0° C.)			solvate)	Form A)
PATTERN	MEK	—	—	—		—	—	—	N/A
#6									(Pattern #6)
	MEK	Single	—	—	Ablated	Anhydrous	1 to 1	MEK	Form A
		melt	Onset	113.23° C.	(−75.2% w/w,		(API to	(0.18% w/w)
			Peak	116.61° C.	210° C.)		fumarate)
			Endset	119.49° C.

TABLE 58
Summary of Characterization Data for the Form A crystalline fumarate
salt of compound 1
Provenances of           Compound 1•MonoFumarate
reference batches        (Form A, Pattern #1)
Batch 1. obtained from   Molecular weight: 348.399 gmol−1
suspension               Exact molecular weight: 348.168
equilibration of         Molecular formula: C18H24N2O5
amorphous compound 1     Unary fumarate: 33.3% w/w th., fumaric acid
in MEK (2.5 vol) at      (i.e., 1.0 mol of API to 1.0 mol fumaric acid)
20° C. The product was   Nature of hydrogen bonding: Hydrogen-bond
isolated by filtration   between oxygen atoms O5 and O3 of fumaric
and oven-dried under     acid 2.590 A. Salified between N2 and O2
vacuum over 20 h at      2.656 A.
40° C. Refer to FIGS.    Crystal system 100(2): orthorhombic
12, 24, 25, 26, 27, 51,  Space group 100(2): P212121
54, 55, 156, 157, 158,   Unit cell 100(2) K: a = 9.03500(10) Å,
159, 160, and 161-166    b = 9.44030(10) Å, c = 21.0000(2) Å, a = b =
for characterization.    g = 90°, V = 1791.16(3) Å3
Batches 2-6: ( ),        Asymmetric unit: contained one molecule of
obtained from            API and one molecule of fumaric acid (crystal
suspension               bonded).
equilibration of         XRPD: 10.1°, 13.4°, 14.1°, 15.6°, 15.9°,
compound 1 in EtOAc,     18.5°, 19.0°, 19.2°, 19.5°, 20.9°, 21.4°,
iPAc, MEK and 2-Me       21.6°, 22.4°, 25.1°, 28.2°, 29.1° (2θ, 1 d.p),
THF, respectively        DSC: onset 114.4° C. (−72.7 Jg−1,
(5 vol) at 20° C. and    endotherm, melt)
isolated by centrifuging TGA: onset 207.9° C. (−67.2% w/w,
and oven-drying under    ablation).
vacuum over 20 h at      DVS 90 to 0 to 90% RH (dm/dt <0.002%):
40° C. Refer to FIGS.    0.0 (0.00%), 5.0 (0.021%), 10.0 (0.047%),
24, 62, 63, 64, 65, 66,  15.0 (0.068%), 20.0 (0.088%), 25.0 (0.107%),
69, 72, 73, 79, 80, 75,  30.0 (0.125%), 40.0 (0.173%), 50.0 (0.242%),
82, and 84 for           60.0 (0.366%), 70.0 (0.590%), 80.0 (0.174%),
characterization data.   90.0 (9.440%), 90.0 (9.440%), 80.0 (2.087%),
Batch 3: obtained from   70.0 (0.885%), 60.0 (0.619%), 50.0 (0.476%),
heat-up, cool-down       40.0 (0.374%), 30.0 (0.279%), 25.0 (0.238%),
crystallisations of      20.0 (0.201%), 15.0 (0.169%), 10.0 (0.141%),
amorphous compound 1     5.0 (0.113%), 0.0 (0.085%).
batch 1 and isolated by  UV chromatographic purity: 98.37% area
centrifuging and oven-   (212 nm), (refer to FIG. 160.
drying under vacuum      1H NMR: (DMSO-d6, 400 MHz); δ 7.4 (d,
over 20 h at 40° C.      J = 9.0 Hz, 1H), 7.3 (s, 1H), 7.0 (s, 1H), 6.8
Refer to FIG. 103 for    (dt, J = 8.9, 3.8, 1.7 Hz, 1H), 6.6 (s, 2H), 6.3
characterization data.   (td, J = 3.11 1.5, 0.8, 1H), 4.3 (dd, J = 13.9,
                         6.4 Hz, 1H), 4.0 (dd, J = 13.9, 6.4 Hz, 1H),
                         3.8 (s, 3H), 3.1 (p, J = 33.8, 20.8, 11.2, 7.2
                         Hz, 1H), 2.3 (s, 1H), 0.8 (dd, J = 6.6, 0.8 Hz,
                         3H) conforms to the molecular structure
                         (Σ22H1), (refer to FIG. 156).
                         Appearance: refer to FIG. 161 to FIG. 164.
                         Solubility in SIF buffers: Soluble in FaSSIF,
                         FeSSIF and FaSSGF at 37° C. up to 24 h.

Qualitative Solubility Screen

Compound 1⋅Fumarate was soluble in many of the common solvents assessed (predominantly Classes 2 and 3 solvents) at 5.0 vol (200 mg/ml), 10.0 vol, 15.0 vol and 20.0 vol (refer to Table). Solids were isolated on cooling from isopropanol (IPA, 5.0 vol), 2-MeTHF (5.0 vol) and methylisobutylketone (MIBK, 15.0 vol). The products from IPA and 2-MeTHF were gums, and not pursued further.

The product from MIBK was analyzed by XRPD, TGA and ¹H NMR (refer to FIG. 10, FIG. 39, and FIG. 40). Specimen isolated after crystallization from MIBK was most likely the crystalline hemi-solvate version, Compound 1 Fumarate with 0.5MIBK.

¹The molecular formula (C₁₈H₂₄N₂O₅) includes the carboxylic acid protons includes the carboxylic acid protons, however, they co-resonate with water.

TABLE 59
Solubility screen of Compound 1•Fumarate
		5 vol	10, 15 & 20 vol
	ICH	Solution at	Solid on	Solution at	Solid on
Solvent	Class	20° C.	40° C.	reflux	cooling	20° C.	40° C.	reflux	cooling
Acetone	3	✓	—	—	—	—	—	—	—
MeCN	2	✓	—	—	—	—	—	—	—
Butanol	3	✓	—	—	—	—	—	—	—
tBME	3	×	×	×	—	×	×	×	—
DCM	2	✓	—	—	—	—	—	—	—
Et2O	3	×	×	×	—	×	×	×	—
Ethanol	3	✓	—	—	—	—	—	—	—
EtOAc	3	×	×	×	—	×	×	×	—
IPA	3	×	✓	—	Yes
iPrOAc	3	×	×	×	—	×	×	×	—
Methanol	2	✓	—	—	—	—	—	—	—
MEK	3	✓	—	—	—	—	—	—	—
2-MeTHF	3	×	×	✓	Yes
THF	2	✓	—	—	—	—	—	—	—
Toluene	2	×	×	×	—	×	×	×	—
Water	#	✓	—	—	—	—	—	—	—
Dioxane	3	×	✓	—	No	—	—	—	—
CPME	3	×	×	×	—	×	×	×	—
Heptane	3	×	×	×	—	×	×	×	—
MIBK	3	×	×	×	—	×	×	✓	Yes

Stability Examination of Amorphous Compound 1 Batch 1 at 40° C./75% RH

Two equal portions of amorphous compound 1 Fumarate (batch 1, CP 93.84% area) were weighed out; one of which was placed inside an open vial, while the other was double polyethene bagged, each bag was tied tightly with cable ties. Both samples were maintained at 75% RH at 40° C. and monitored by HPLC at time points t=1 h, 3 h, 24 h, 48 h, 7 d, 2 w, 3 w, 4 w and 5 w.

Under the conditions evaluated during this study, XRPD analysis could not be performed as compound 1 Fumarate turned to an oily residue within 3 h under both conditions. No crystallisation was observed after this time, chemical purity had decreased by approximately 2% area at the 5 week time point, indicating good stability of the amorphous phase under these conditions, over this time.

DVS Analyses

There are two main methods to use, one is by time where the equilibration is given by a fixed time, i.e., 1 hour per step and is appropriate for an unknown phase. The second, is by mass per time unit (dm/dt) of 0.002%/min; that is when the difference in weight is less than 0.002%, the instrument moves onto the next step. For unknown hygroscopicity, the method by time is indicated because it gives an idea of water affinity without wasting much time. Ideally the analyses are repeated using the mass equilibration method to confirm. By experience for hygroscopic samples, the analysis can continue for days. For non-hygroscopic samples the difference between the two methods may not be significant.

Consequently, amorphous batch 1 was analyzed by the fixed time method and once compound 1 fumarate crystalline polymorphic Form A was generated the analyses was repeated as mass per unit time equilibrated @ dm/dt (0.0002%/min) and is given below (refer to FIG. 12). DVS data of compound 1 fumarate crystalline polymorphic Form A showed deliquescent type isotherm, gained ca. 1% w/w at 70% RH after which, pronounced mono, multilayer sorption and probable deliquescence occurred >80% RH.

TABLE 60
Solubility screen of amorphous compound 1 fumarate
	HPLC	XRPD t =	XRPD t =	XRPD t =	XRPD t =	XRPD t =	HPLC
Conditions	(% area)	3 h	24 h	48 h	7 days	2 w	(% area)
Open-necked,	93.84	Highly	Highly	Highly	Highly	Highly	91.24
wide via at		hygroscopic/	hygroscopic/	hygroscopic/	hygroscopic/	hygroscopic/
75% RH/40°		oily residue	oily residue	oily residue	oily residue	oily residue
C. for 5 weeks
Sealed		Highly	Highly	Highly	Highly	Highly	91.21
PK0056		hygroscopic/	hygroscopic/	hygroscopic/	hygroscopic/	hygroscopic/
electrostatic		oily residue	oily residue	oily residue	oily residue	oily residue
bags at 75%
RH/40° C. 5
weeks
	XRPD t =	HLPC	XRPD t =	HLPC	XRPD t =	HLPC
Conditions	3 w	(% area)	4 w	(% area)	5 w	(% area)
Open-necked,	Highly	94.17	Highly	91.86	Highly	91.57
wide via at	hygroscopic/		hygroscopic/
75% RH/40°	oily residue		oily residue		oily residue
C. for 5 weeks
Sealed	Highly	91.94	Highly	90.9	Highly	91.3
PK0056	hygroscopic/		hygroscopic/		hygroscopic/
electrostatic	oily residue		oily residue		oily residue
bags at 75%
RH/40° C. 5
weeks

Re-Proportionation Examination

The activated compound 1⋅0.5Fumarate was equilibrated in tBME (initially gum and converted to stable suspension), to determine if the hemi-salt was metastable w.r.t. the unary salt, and spontaneously reverted into compound 1⋅Fumarate under suspension equilibration conditions. The output from this experiment was consistent with compound 1⋅0.5Fumarate, concluding that re-proportionation did not occur (i.e., 2compound 1⋅0.5Fum→compound 1⋅Fum+compound 1, refer to FIG. 13).

Competitive Re-Proportionation of Unary and Hemi Salts

The powder diffraction pattern of the material isolated from competitive re-proportionation experiments was consistent with Form A, a unary fumarate, i.e. indicating that unary compound 1 fumarate salts were favoured over hemi compound 1 fumarate salts under competitive suspension equilibration conditions (refer to Error Reference source not found. FIG. 14). Therefore, if an under charge of fumaric acid generated a mixture of hemi fumarate and unary fumarate, then the mixed phase should convert to single phase composition of unary fumarate salt and compound 1 free base (in solution) during aging (refer to FIG. 15).

Suspension Equilibration at 20 and 40° C.

Suspension equilibration is a thermodynamic dwelling technique, designed to promote the evolution of the API into a more stable phase. Amorphous compound 1 fumarate was subjected to this technique at ambient temperature (20° C.) and at elevated temperature (40° C.), in a diverse range of solvents.

Amorphous compound 1 fumarate underwent suspension equilibration in 19 single solvents at two different temperature set points (20 and 40° C.). The products were isolated by centrifugation and analysed wet by XRPD. After drying, the samples were reanalyzed.

At 20° C., dissolution or gumming was initially observed in the presence of most solvents; after several days, five of the gums had mobilized to give stable suspensions (refer to entries, Table 61). The products were isolated via centrifugation and the wet pellets were analysed by XRPD, oven dried and reanalyzed by XRPD, TGA, DSC and ¹H NMR.

The companion screen performed at 40° C., yielded no hits. Consequently, the screen was repeated in the presence of an appropriate polarity modifier (either heptane or tBME), to ensure activity of the solvent was maintained while generating stable suspensions from the onset (refer to Table 62). XRPD analysis of both wet and oven dried pellets showed monofumarate Form A (FIG. 74-77).

TABLE 61
Summary of results of suspension equilibration study at 20° C. (orange colour indicated form change after oven
drying). Compound 1 monofumarate was the input.
							XRPD			1H NMR
	Obs.	Obs.	Obs.	Obs.			(post			(solvent
Solvent	(t = 0,	(t = 1 d,	(t = 3 d,	(t = 7 d,	Yield	XRPD	nitrogen			content,
(5 vol)	@ 20° C.)	@ 20° C.)	@ 20° C.)	@ 20° C.)	%	(wet)	dried	DSC	TGA	% w/w)
Acetone	Solution	Solution	Solution	Solution	—	—	—	—	—	—
MeCN	Solution	Solution	Solution	Solution	—	—	—	—	—	—
tBME	Gum	Feint	Suspension	White	Quant.	Pattern	Pattern	Integral:	flat	0.1
		suspen-		suspension		#3b	#3b	−22.04	baseline
		sion +						Jg{circumflex over ( )} −1	Step:
		gum						Onset:	−62.7138%
								56.30° C.	Onset:
									208.43° C.
Chloro-	Gum	Gum	Gum	Gum and	—	—	—	—	—	—
benzene				feint
				suspension
DCM	Feint	Gum	Gum	Feint	—	—	—	—	—	—
	suspension			suspension
Ethanol	Solution	Solution	Solution	Solution	—	—	—	—	—	—
Ethyl	Gum	Suspen-	Suspension	Suspension	Quant.	Pattern	Pattern	Integral:	flat	0.1
acetate		sion +				#3a	#1	−35.88	baseline
		oil						Jg{circumflex over ( )} −1	Step:
								Onset:	−60.7231%
								112.05° C.	Onset:
									208.47° C.
Ethyl	Gum	Feint	Feint	Feint	—	—	—	—	—	—
formate		suspension	suspension	suspension
Heptane	Gum	Feint	Feint	Gum and	—	—	—	—	—	—
		suspension	suspension	feint
				suspension
Isopropyl	Gum	Gum	Suspension	Suspension	Quant.	Pattern	Pattern	Integral:	flat	0.5
acetate				and gum		#3a	#1	−50.02	baseline
								Jg{circumflex over ( )} −1	Step:
								Onset:	−59.4072%
								110.98° C.	Onset:
									208.64° C.
Methanol	Solution	Solution	Solution	Solution	—	—	—	—	—	—
Methyl	Oil	Feint	Feint	Feint	—	—	—	—	—	—
acetate		suspen-	suspension	suspension
		sion +
		oil
Methylethyl	Solution	Solution	Solution	Suspension	Quant.	Pattern #6	Pattern	Integral:	flat	0.2
ketone							#1	−39.80	baseline
								Jg{circumflex over ( )} −1	Step:
								Onset:	−75.1831%
								113.34 °C.	Onset:
									210.71° C.
2-Methyl	Gum	Solution	Suspension	Suspension	Quant.	Pattern #1	Pattern	Integral:	flat	n.d.
THF							#1	−53.85	baseline
								Jg{circumflex over ( )} −1	Step:
								Onset:	−67.2919%
								110.53° C.	Onset:
									208.72° C.
Nitromethane	Solution	Solution	Solution	Solution	—	—	—	—	—	—
2-Propanol	Gum	Solution	Solution	Solution	—	—	—	—	—	—
Tetra-	Solution	Solution	Solution	Solution	—	—	—	—	—	—
hydrofuran
Toluene	Gum	Gum	Gum	Gum	—	—	—	—	—	—
Water	Feint	Solution	Solution	Solution	—	—	—	—	—	—
	suspension

TABLE 62
Summary of results of suspension equilibration study at 40° C.
Precipita-
tion								XRPD
solvent	Co-Solvent	Key chemical	Observations	Observations	Observations	Observations		(post
(7 parts,	(3 part, 10	functional	(t = 0	(t = 1 d	(t = 3 d	(t = 7 d	XRPD	oven
10 vol total)	vol total)	groups	@ 40° C.)	@ 40° C.)	@ 40° C.)	@ 40° C.)	(wet)	dried)
Heptane	Acetone	Symmetrical	Gum	Gum	Gum/oil	Gum	Pattern #1	Pattern #1
		ketone
Heptane	Acetonitrile	Simple dipolar-	Oil (biphasic)	Oil (biphasic)	Oil (biphasic)	Oil (biphasic)	—	—
		aprotic nitrile
Heptane	tert-	Branched	Gum	Gum	Gum	Oil/gum	—	—
	Butylmethyl	aliphatic
	ether	methoxyether
Heptane	Chloro-	Aromatic	Gum	Gum	Gum + very	Gum + very	Pattern #1	Pattern #1
	benzene	halide			feint	feint
					suspension	suspension
Heptane	Dichloro-	Chlorinated	Gum + Feint	Gum + feint	Gum + very	Gum + feint	Pattern #1	Pattern #1
	methane	hydrocarbon	suspension	suspension	feint	suspension
					suspension
Heptane	Ethanol	Linear aliphatic	Gum + Feint	Gum + feint	Suspension	Suspension	Pattern #1	Pattern #1
		alcohol	suspension	suspension		(sticky)
Heptane	Ethyl acetate	Aliphatic ester	Gum	Gum	Gum	Oil/gum	—	—
Heptane	Ethyl formate	Aldehyde	Gum + Feint	Gum + feint	Gum	Suspension	Pattern #1	Pattern #1
		aliphatic ester	suspension	suspension		(sticky)
Heptane	Heptane	Linear alkane	Gum	Gum	Gum + very	Gum + feint	Pattern #1	Pattern #1
					feint	suspension
					suspension
Heptane	Isopropyl	Branched	Gum	Gum + feint	Gum + feint	Gum + feint	Pattern #1	Pattern #1
	acetate	aliphatic ester		suspension	suspension	suspension
Heptane	Methanol	Simple aliphatic	Oil (biphasic)	Oil (biphasic)	Biphasic (oil)	Oil (biphasic)	Pattern #1	Pattern #1
		alcohol
Heptane	Methyl	Simple aliphatic	Gum + Feint	Gum + feint	Gum + feint	Suspension	Pattern #1	Pattern #1
	acetate	ester	suspension	suspension	suspension	(sticky)
Heptane	Methylethyl	Asymmetric	Gum	Gum + feint	Gum + feint	Gum + feint	Pattern #1	Pattern #1
	ketone	dialkyl ketone		suspension	suspension	suspension
Heptane	2-Methyl	Asymmetric	Gum	Gum + feint	Gum + feint	Gum + feint	Pattern #1	Pattern #1
	THF	cyclic ether		suspension	suspension	suspension
Heptane	Nitromethane	Dipolar aprotic	Oil (biphasic)	Oil (biphasic)	Oil (biphasic)	Biphasic	—	—
		nitro				(hazy)
Heptane	2-Propanol	Branched	Gum + Feint	Gum + feint	Suspension	Suspension	Pattern #1	Pattern #1
		aliphatic	suspension	suspension		(sticky)
		alcohol
Heptane	Tetra-	Symmetric	Gum	Gum + feint	Gum + feint	Gum + feint	Pattern #1	Pattern #1
	hydrofuran	cyclic ether		suspension	suspension	suspension
Heptane	Toluene	Alkyl aromatic	Gum	Gum	Gum + feint	Gum + feint	Pattern #1	Pattern #1
		hydrocarbon			suspension	suspension
Heptane	Water	Dihydrogen	Oil (biphasic)	Oil (biphasic)	Oil (biphasic)	Oil (biphasic)	—	—-
		oxide

Thermocycling

Thermocycling in different solvents can promote the formation of alternative polymorphic forms. compound 1 ⋅Fumarate was heated and cooled between 20° C. and 75% of the relevant solvent b.p. at 0.5° C./minute, for 5 consecutive cycles; a 10-minute dwell was incorporated at each inflection (refer to Table 63). Thermocycling is ripening technique that encourages particle size enlargement and promotes the evolution of the API into a stable phase. Smaller, less stable particles dissolve as the upper temperature boundary is approached, leaving larger stable particles behind; during cooling the concentrated supernatant de-supersaturates resulting in growth in the presence of the larger particles; after thermocycling, the particles should be larger and fewer in number. The products were analysed both wet and dry to determine if form changes had occurred, all products were consistent with monofumarate Form A (refer to FIGS. 16-19 and FIGS. 88-102).

TABLE 63
Thermocycling data summary - All products (wet and dry) were consistent with Pattern #1, Form A
									1H NMR
Input						XRPD	XRPD		(solvent
weight	Solvent	Solvent	Solvent	Output	Yield	crystallinity2	crystallinity2		content,
(mg)	A	B	ratio	(mg)	(%)	(wet, %)	(dry, %)	DSC	% w/w)
75.6	MEK	Heptane	(1 to 1)	61.3	81.1	83.4	83.2	116.95°C.	3.3
75.8	tBME	—	100.0%	49.5	65.3	79.0	81.0	115.33° C.,	0.2
								251.17° C.
75.1	iPAC	—	100.0%	59.2	78.8	80.7	82.7	116.83° C.,	1.3
								251.83° C.
75.8	Toluene	—	100.0%	49.1	64.8	52.4	68.1	105.50° C.,	5.0
								174.83° C.,
								251.26° C.
2XRPD crystallinity is computed from the powder pattern and takes it to account the contribution from crystalline peaks and amorphous. Not based on the measurements of physical calibrants and it is calculated by the software.

Heal-Up/Cool Down (HUM) Crystallization in Different Solvents

Crystallisation from different solvents can be a useful method to investigate alternative polymorphic forms. This crystallisation screen of compound 1⋅Fumarate could also be used to identify potential conditions for future scale-up crystallizations to control the form outcome. Amorphous compound 1 fumarate (batch 1) was crystallised from several solvents (refer to Table 64). Only entries N1 AND N2 remained in solution when cooled down. The XRPD diffractograms of the rest, which delivered solids, matched monofumarate Form A when oven dried (FIG. 103).

TABLE 64
Summary of HUCD experiment with Compound 1 monofumarate as input
Input	Precipitant		Co-solvents	Key chemical			Observations
weight	solvent	Co-	(volumes	functional	b.p.	ICH	(t = 0 @
(mg)	(5 vol)	Solvents	added, μl)	groups	(° C.)	Classes	T = 20° C.)
75.8	Heptane	Acetone	200	Symmetrical	56	3	suspension
				ketone
74.8	Heptane	Acetonitrile	80	Simple	82	2	2-phase
				dipolar-			solution
				aprotic nitrile
76.2	Heptane	Butanol	100	Linear	118	3	suspension
				aliphatic
				alcohol
75.1	Heptane	tert-	300	Branched	55	3	oil/white
		Butylmethyl		aliphatic			solid
		ether		methoxy ether
76.9	Heptane	Dichloro-	160	Chlorinated	40	2	suspension
		methane		hydrocarbon
76.9	Heptane	Ethanol	180	Linear	78	3	suspension
				aliphatic
				alcohol
77.1	Heptane	Ehtyl	420	Aliphatic	75	3	suspension
		acetate		ester
75.1	Heptane	Diethyl	800	Linear ether	54	3	gum
		ether
74.3	Heptane	Isopropyl	660	Branched	87	3	suspension
		acetate		aliphatic ester
74.1	Heptane	Dioxane	240	Symmetric	101	3	suspension
				cyclic ester
80.0	Heptane	Methylethyl	100	Asymmetric	80	3	suspension
		ketone		dialkyl
				ketone
76.2	Heptane	2-Methyl	380	Asymmetric	80	#	suspension
		THF		cyclic ether
82.5	Heptane	2-Propanol	120	Branched	83	3	suspension
				aliphatic
				alcohol
77.1	Heptane	CPME	800	Symmetric	106	#	gum
				cyclic ester
74.4	Heptane	Tetrahydro	300	Symmetric	66	2	suspension
		furan		cyclic ester
78.0	—	Toluene	800	Alkyl	111	2	gum
				aromatic
				hydrocarbon
79.6	Water	Ethanol	80	Water	100	#	solution
90.0	Heptane	MIBK	420	Asymmetric	116	#	suspension
				dialkyl ketone
Input	Observations	Form	Form
weight	(t = 3 d @	XRPD	XRPD				Yield
(mg)	20° C.)	(moist)	(oven dried)	Tare	Gross	Net	%
75.8	suspension	N/A	Pattern 1	1.003	1.0597	56.7	74.8%
74.8	2-phase	N/A	N/A	1.0077	N/A	N/A	N/A
	solution
76.2	suspension	N/A	Pattern 1	1.001	1.047	46	60.4%
75.1	oil/white solid	N/A	Pattern 1	1.0013	1.0485	47.2	62.8%
76.9	suspension	N/A	Pattern 1	1.0012	1.0502	49	63.7%
76.9	suspension	N/A	Pattern 1	1.0096	1.0498	40.2	52.3%
77.1	suspension	N/A	Pattern 1	1.0089	1.0505	41.6	54.0%
75.1	gum	N/A	Pattern 1	1.0064	1.0523	45.9	61.1%
74.3	suspension	N/A	Pattern 1	1.0037	1.0372	33.5	45.1%
74.1	suspension	N/A	Pattern 1	1.0081	1.03742	29.1	39.3%
80.0	suspension	N/A	Pattern 1	1.0052	1.0544	49.2	61.5%
76.2	suspension	N/A	Pattern 1	1.0121	1.0687	56.6	74.3%
82.5	suspension	N/A	Pattern 1	1.011	1.0404	29.4	35.6%
77.1	gum	N/A	Pattern 1	1.0059	1.0636	57.7	74.8%
74.4	suspension	N/A	Pattern 1	0.9989	1.0404	42.5	57.1%
78.0	gum	N/A	Pattern 1	1.0111	1.0758	64.7	82.9%
79.6	solution	N/A	N/A	N/A	N/A	N/A	N/A
90.0	suspension	N/A	Pattern 1	1.0038	1.0515	47.7	53.0%

Vapor Derision

Vapor diffusion is a slower thermodynamic crystallization technique and good for generating single crystals suitable for single crystal X-ray diffraction (SCXRD). The technique consisted of a solution of amorphous compound 1 fumarate in the relevant non-diffusant solvent, placed inside a small, wide-necked vessel. The wide-necked vessel was then placed inside a larger jar, and the appropriate diffusant solvent was added to the larger jar, to form a moat of diffusant around the smaller vessel.

As the diffusant solvent gradually evaporated, the composition of the non-diffusant solvent changed and in doing so, promoted de-supersaturation and crystallization of compound 1⋅Fumarate. After 14 days, entry N and entry N remained in full solution, while entry N exhibited a gummy solid which dissolved when worked up. The stable, target form (Pattern #1, monofumarate Form A) was crystallized from MEK with tBME as the diffusant solvent (entry N, refer to Table 65). Microscopy showed mainly aggregations of crystals with very few individual crystals (FIGS. 108-117).

TABLE 65
Summary of vapor diffusion experiment
Input		Solvent		Co-solvent
weight	Solvent	volume	Solvent	volume	Output	Yield	XRPD	XRPD
(mg)	A	(ml)	B	added (ml)	(mg)	(% th)	(wet)	(dry)
75.7	Water	0.375	Acetone	6.0	—	—	—	—
76.2	MEK	0.375	tBME	6.0	57.8	75.9	Pattern #1	Pattern #1
							Form A	Form A
75.4	BuOH	0.375	Heptane	6.0	—	—	—	—
74.4	MEK	0.475	Water	6.0	—	—	—	—

Evaporation Screen

An evaporation screen of compound 1 Fumarate was performed to determine if alternative polymorphic forms were generated by evaporative crystallization (refer to Table 66). Condition-D (methanol) and Condition-F (DMSO) achieved full dissolution at 20° C. Condition-E (DCM), Condition-I (2-MeTHF) and Condition-M (MIBK) did not achieve full dissolution despite heating to reflux and sonication.³ The rest were dissolved after heating to reflux or sonication.

Condition-A, condition-D, and condition-J formed oils upon full evaporation of solvent after 6 days. Condition-E, condition-1 and condition-L showed precipitate but did not go into full solution at the start of the experiment. Condition-F, and condition-L were in full solution after 6 days. The outputs from this experiment all matched Pattern #1 (monofumarate Form A, FIGS. 118-151).

In situ hybridization evaluation An XRPD specimen of monofumarate Form A was prepared and treated with sequential aliquots of water. The overlaid XRPD diffractograms indicate that Form A underwent conversion into its amorphous form (refer to FIG. 23).

TABLE 66
Summary of evaporative screen experiment
	Input						1H NMR
	weight		Output	Yield	XRPD	XRPD	(solvent content,
	(mg)	Solvent	(mg)	(%)	(wet)	(dry)	% w/w)
A	51.3	EtOH	—	—	—	—	—
B	49.1	Acetone	37.5	76.4	Pattern #1	Pattern #1	0.26
					Form A	Form A
C	51.1	MeCN	25.1	49.1		Pattern #1	0.12
						Form A
D	50.3	MeOH	—	—	—	—	—
E	50.3	DCM	24.2	48.1	Pattern #1	Pattern #1	0.86
					Form A	Form A
F	49.2	DMSO	—	—	—	—	—
G	50.5	IPA	15.2	30.1	Pattern #1	Pattern #1	0.22
					Form A	Form A
H	50.8	MEK	38.6	76.0	Pattern #1	Pattern #1	2.32
					Form A	Form A
I	50.3	2-MeTHF	36.8	73.2	Pattern #1	Pattern #1	0.22
					Form A	Form A
J	51	THF	—	—	—	—	—
K	50	BuOH	36.4	72.8	Pattern #1	Pattern #1	0.51
					Form A	Form A
L	50.1	Water	—	—	—	—	—
M	50.9	MIBK	31.6	62.1	Pattern #1	Pattern #1	0.44
					Form A	Form A
N	49.6	Dioxane	—	—	—	—	—

³ The products from these solvents were still analysed.

Conversion to the Target Form: Suspension Equilibration in MEK at 20° C.

XRPD analysis of the output matched the previously obtained stable form (Pattern #1, Form A, refer to FIG. 24), confirming successful conversion to the desired form. This batch was used in the salt screen studies performed on amorphous compound 1.

Attempted Re-Preparation of Form B: Suspension in tBME at 20° C.

The initial trial to re-prepare monofumarate Form B was performed by dissolving compound 1 Fumarate in tBME (5.0 vol) at 40° C. and was unsuccessful and instead delivered monofumarate Form A after stirring at 20° C. for 4 days (refer to FIG. 25, FIG. 347). The experiment was repeated by applying the same conditions for ca. 18 h, however, the output matched monofumarate Form A (refer to FIG. 26, FIG. 348, FIG. 349). The third attempt involved dissolution of Compound 1 Fumarate in MeOH (4.5 vol), followed by the charge tBME as an anti-solvent to enforce the formation of to deliver the kinetic form out of solution. Unfortunately, the powder diffraction pattern of the obtained material was consistent with monofumarate Form A (refer to FIG. 27).

Competitive Suspension Equilibration (Form a and Form B)

All three attempts to generate monofumarate Form B in tBME failed, and gave monofumarate Form A. These three experiments (attempted isolation of monofumarate Form B from tBME, iPAc, and toluene, which instead led to the isolation of monofumarate Form A) verified the relative stability of Form A relative to Form B (FIG. 17-19, FIG. 343-348).

Crystallization Experiments to Grow a Single Crystal of Monofumarate Form A

A single crystal of Form A was prepared by dissolution in DCM followed by evaporation and was submitted to the UK National Crystallography Service.

The unit cell contained 1 API molecule and 1 fumarate. Crystal Data of monofumarate Form A (refer to FIG. 28): C₁₈H₂₄N₂O₅, M_r=348.39, orthorhombic, P2₁2₁2₁ (No. 19), a=9.03500(10) Å, b=9.44030(10) Å, c=21.0000(2) Å, a=b=g=90′, V=1791.16(3) ų, T=100(2) K, Z=4, Z′=1, m(Cu K_α)=0.782 mm⁻¹, 18799 reflections measured, 3737 unique (R_int=0.0414) which were used in all calculations. The final wR₂ was 0.0750 (all data) and R₁ was 0.0292 (I≥2 s(I)).

According to the crystal structure obtained, hydrogen-bond between oxygen atoms O5 and O3 of fumaric acid 2.590A. Salified between N2 and 02 2.656 A. Extensive hydrogen bonding structure, each fumarate molecule hydrogen bonds between 1 API and 2 separate fumarate molecules creating a chain between molecules throughout the structure (refer to FIG. 338). Void space analysis indicates a maximum radius of 0.93 Å, too small for solvent molecules to be present in the structure (refer to Error Reference source not found. FIG. 30).

Conclusions

Monofumarate Form A (1.0 to 1.0 fumarate salt), hemifumarate Form I (1.0 to 0.5 fumarate salt), monofumarate Form B (1.0 to 1.0 salt), hemifumarate Form II (1.0 to 0.5 fumarate salt), in conjunction with Pattern #3a, Pattern #5 and Pattern #6 were generated. Form A was definitively characterised, including single crystal structure determination. In certain cases, it was not possible to obtain full characterisation of certain forms due to their metastability. Form A was the stable monotropic form.

Compound 1⋅MonoFumarate Form A (previously assigned Pattern #1) was found to be the stable form and was selected to be progressed into the salt screen. Monofumarate Form A was generated even when conditions for monofumarate Form B formation were applied. The considerable difficulties encountered in attempting to re-prepare the sub-ordinate phases meant that no formal competitive suspension equilibration slurries were carried out and served to demonstrate that monofumarate Form A was most likely, the most stable form. The fumarate salt form is also capable of disproportionation (i.e., separation into non-ionised versions of the API and fumaric acid) and re-proportionation (conversion into the hemi fumarate and non-ionised fumaric acid, Forms I and II were identified) under certain conditions. Preliminary stability evaluation of Compound 1 Fumarate, included several weeks at 40° C./75% RH and showed no evidence for hydrate formation or degradation.

Summary of Forms

Monofumarate Form A (Pattern #1)

Preparation

Monofumarate Form A (Pattern #1) was prepared in various solvents e.g. iPAc, acetone, 2Me-THF, CPME or MEK.

Characterization Data

XRPD: an exemplary XRPD profile for Form A is shown in FIG. 6.

The XRPD peak pattern of crystalline compound 1 fumarate Form A was calculated. The calculated peaks are shown in Table 115.

TABLE 115
Calculated XRPD signals for crystalline compound 1 monofumarate,
Pattern #1, Form A.
			Net	Gross	Rel.
			Intensity	Intensity	Intensity
Signal number	2-θ (°)	d Value	(counts)	(counts)	(%)
Signal #1	10.3	8.61	1126.6	1139.1	11.5
Signal #2	13.6	6.53	2683.7	2720.5	27.4
Signal #3	14.2	6.23	3675.4	3715.5	37.5
Signal #4	15.7	5.62	1512.1	1550.0	15.4
Signal #5	16.0	5.53	4660.4	4697.7	47.5
Signal #6	18.8	4.72	1197.4	1238.8	12.2
Signal #7	19.3	4.60	2498.7	2550.3	25.5
Signal #8	19.5	4.54	2989.3	3044.4	30.5
Signal #9	21.2	4.18	2615.2	2686.7	26.7
Signal #10	21.7	4.09	3301.8	3377.4	33.7
Signal #11	22.7	3.91	9809.5	9879.0	100.0
Signal #12	23.4	3.80	1482.8	1536.3	15.1
Signal #13	24.8	3.59	1286.3	1315.4	13.1
Signal #14	25.3	3.52	983.5	1011.2	10.0
Signal #15	28.7	3.11	1676.0	1727.6	17.1
Signal #16	29.6	3.01	2058.9	2112.0	21.0

DSC: An exemplary DSC profile for Form A is shown in FIG. 85.

TGA: An exemplary TGA profile for Form A is shown in FIG. 80.

¹H NMR: An exemplary ¹H NMR spectrum for monofumarate Form A is shown in FIG. 64. The ¹H NMR shows 1:1 stoichiometry of compound and fumarate.

Monofumarate Form B (Pattern #3b)

Preparation

Monofumarate Form B (Pattern #3b) was prepared in tBME.

Characterization Data

XRPD: An exemplary XRPD profile for monofumarate Form B is shown in FIG. 5.

DSC: An exemplary DSC profile for monofumarate Form B is shown in FIG. 83.

TGA: An exemplary TGA profile for monofumarate Form B is shown in FIG. 78.

¹H NMR: An exemplary ¹H NMR spectrum for monofumarate Form B is shown in FIG. 62. The ¹H NMR shows a 1:1 stoichiometry of compound and fumarate.

Pattern #3a

Preparation

Pattern #3a was prepared in ethyl acetate.

Characterization Data

XRPD: An exemplary XRPD profile for Pattern #3a is shown in FIG. 68. Upon drying Pattern #3a transformed into Form A. An XRPD pattern for material that was Pattern #3a and transformed

into Form A after heating is shown in FIG. 69.

Hemifumarate Form I (Pattern #2)

Preparation

Hemifumarate Form I (Pattern #2) was prepared in IPA.

Characterization Data

XRPD: An exemplary XRPD profile for hemifumarate Form I is shown in FIG. 4.

DSC: An exemplary DSC profile for hemifumarate Form I is shown in FIG. 340.

TGA: An exemplary TGA profile for hemifumarate Form I is shown in FIG. 341.

¹H NMR: An exemplary ¹H NMR spectrum for hemifumarate Form I is shown in FIG. 3. The ¹H NMR shows a 2:1 stoichiometry of compound and fumarate.

Hemifumarate Form H (Pattern #4)

Preparation

Hemifumarate Form II (Pattern #4) was prepared in tBME.

Characterization Data

XRPD: An exemplary XRPD profile for hemifumarate Form II is shown in FIG. 7.

DSC: An exemplary DSC profile for hemifumarate Form II is shown in FIG. 60.

TGA: An exemplary TGA profile for hemifumarate Form II is shown in FIG. 59.

1H NMR: An exemplary ¹H NMR spectrum for Form II is shown in FIG. 57. The ¹H NMR shows a 2:1 stoichiometry of compound and fumarate.

Pattern #5

Preparation

Pattern #5 was prepared in MIBK.

Characterization Data

XRPD: An exemplary XRPD profile for Pattern #5 is shown in FIG. 1.

DSC: An exemplary DSC profile for Pattern #5 is shown in FIG. 40.

¹H NMR: An exemplary ¹H NMR spectrum for Pattern #5 is shown in FIG. 39. The ¹H NMR shows a 1:1 stoichiometry of compound and fumarate.

Pattern #6

Preparation

Pattern #6 was prepared in MEK.

Characterization Data

XRPD: An exemplary XRPD profile for Pattern #6 is shown in FIG. 71.

Upon drying, Pattern #6 transformed into Form A.

Instrumental

DSC

A Mettler Toledo DSC 3 instrument was used for the thermal analysis operating with STARe™ software. The analysis was conducted in 40 μl open aluminium pans, under nitrogen and sample sizes ranged from 1 to 10 mg. Typical analysis method was 20 to 250′C at 10° C./minute.

Alternatively, a Mettler Toledo DSC 821 instrument was used for the thermal analysis operating with STARe™ software. The analysis was conducted in 40 μl open aluminium pans, under nitrogen and sample sizes ranged from 1 to 10 mg. Typical analysis method was 20 to 250° C. at 10° C./minute.

FT-IR

FT-IR Spectra were acquired using a PerkinElmer Frontier FT-IR spectrometer. Samples were analysed directly using a universal ATR attachment in the Mid and Far frequency ranges; 4000 to 30 cm⁻¹. Spectra were processed using Spectrum software. Standard KBr windows are used for mid-IR applications; polyethylene and polyethylene/diamond windows are used for operation in the far-IR. Further capabilities of the instrument include a liquid flow cell with ZnSe windows used for rapid monitoring of reactions. This couples with time-based software that allows time-resolved measurements to be taken.

LC-MS

Routine Liquid Chromatography-Mass Spectrometry (LC-MS) data were collected using the Agilent 1260 Infinity II interfaced with 1260 Infinity II DAD HS and Agilent series 1260 Infinity II binary pump.

The instrument used a single quadrupole InfinityLab MSD. The instrument was calibrated up to 2000 Da.

¹H NMR

¹H NMR Spectra were acquired using a Bruker 400 MHz spectrometer and data was processed using Topspin. Samples were prepared in DMSO-d₆ at typical concentrations of 10 to 20 mg/mL and up to 50 mg/mL for ¹H NMR w/w assay and calibrated to the corresponding non-deuterated solvent residual at 2.50 ppm.

¹H NMR w/w Assay

Assays (w/w) of API by ¹H NMR spectroscopy were measured by the project chemist.

Internal standard 2,3,5,6-terachloronitrobenzene (TCNB), (ca. 20 mg, F.W. 260.89) were dissolved in DMSO-d₆ (2.0 mL) and the ¹H NMR spectrum was acquired using an extended relaxation method.

Thermal Gravimeiric Analysis

A Mettler Toledo TGA 2 instrument was used to measure the weight loss as a function of temperature from 25 to 500° C. The scan rate was typically 5 or 10° C. per minute. Experiments and analysis were carried out using the STARe™ software. The analysis was conducted in 100 μL open aluminium pans, under nitrogen and sample sizes ranged from 1 to 10 mg.

XRPD Analysis

X-Ray powder diffraction (XRPD) analysis was carried out using a Bruker D2 Phaser powder diffractometer equipped with a LynxEye detector. The specimens underwent minimum preparation but, if necessary, they were lightly milled in a pestle and mortar before acquisition. The specimens were located at the centre of a silicon sample holder within a 5 mm pocket (ca. 5 to 10 mg).

The samples were continuously spun during data collection and scanned using a step size of 0.02° 2-theta (28) between the range of 4° to 40° 2-theta. Data was acquired using either 3- or 20-minutes acquisition methods. Data was processed using Bruker Diffrac. Suite.

• • Peak tables report only peaks >10%.
  • Relative intensity values in peak tables were calculated using the Net. intensity values.
  • Background curvature is automatically calculated over 4 to 40° 2-theta by the Brucker EVA software.

HPLC

HPLC data was acquired using an Agilent HPLC instrument. Samples were diluted to 1 mg/mL concentration in H₂O/DMSO (1/1, v/v).

Method parameters:

• • Column: Halo C18, 150×4.6 mm, 2.7 m
  • Inj. volume: 54
  • Detection: UV @ 212 nm
  • Mobile Phase A: 0.1% TFA in water/acetonitrile 95/5 v/v
  • Mobile Phase B: 0.05% TFA in water/acetonitrile 5/95 v/v

TABLE 67
HPLC Parameters
Time	% A	% B
0.0	100	0
2.0	100	0
25.0	50	50
30.0	0	100
32.0	0	100
32.1	100	0
37.0	100	0

• • Flow rate: 1 mL/min
  • Column temperature: 30° C.
  • Run time: 37 minutes
  • Integration time: 32 minutes
  • Wash vial or syringe wash: Sample diluent

DVS

The moisture sorption properties of the feed API were analysed by DVS Intrinsic instrument (Surface Measurement System). Approximately 20 to 50 mg of API was weighed onto an aluminium pan and loaded into the instrument equilibrated at 25° C. The sample was equilibrated under a dry atmosphere (0% relative humidity) for 60 minutes, before increasing the humidity from 0% to 30% at 5% step increment and from 30% to 90% at 10% step increment. A desorption cycle was also applied from 90% to 30% (10% step decrement) and from 30% to 0% (5% step decrement). A rate of change in mass per time unit (dm/dt) of 0.002%/min was set as the equilibrium parameter. Kinetic and isotherm graphs were calculated.

TABLE 68
Solvents used in the solubility screen
		ICH
Solvents	b.p. (° C.)	Classes
Acetone	56	3
Acetonitrile	82	2
tert-Butylmethyl	55	3
ether
Dichloromethane	40	2
DMSO
Ethanol	78	3
Ethyl acetate	75	3
2-Propanol	83	3
iPrOAc	87	3
Methanol	65	2
Methylethyl	80	3
ketone
2-Methyl THE	80	#
Tetrahydrofuran	66	2
Toluene	111	2
Water	100	#

Procedures—Qualitative Solubility Screen

Compound 1 Fumarate (batch 1, 25 mg, 1 wt) was weighed out in 20 separate vials to qualitatively examine the solubility in an array of diverse solvents. The solubility was tested initially at 5 vol at 20° C., 40° C. and reflux. If insoluble at 5 vol, the solvent quantity was increased to 10 vol, 15 vol and 20 vol of the respective solvent. The suspensions that occurred upon cooling down were centrifuged and the solvent wet pellets were analysed by XRPD. The insoluble suspensions were additionally worked up for XRPD analysis. The resultant powder patterns were subsequently cross-referenced against the input supplied material.

Procedures—Stability Examination of Supplied Material at 40° C., 75% RH

compound 1⋅Fumarate (batch 1, 100 mg) was placed inside a wide-necked, open vial (suffix -A) Compound 1⋅Fumarate (batch 1, 100 mg) was placed inside a wide-necked, open vial and then inside double polyethene bags (SPC/PK/0052), tied tightly with cable ties (suffix -B). Both samples were maintained under equilibrium humidity of 75% RH at 40° C. and monitored, initially at hourly and then weekly time points.

Procedures—Re Proportionation Examination

Amorphous compound 1 (70.8 mg, 1 wt) and fumaric acid (17.7 mg, 0.25 wt, 0.5 eq.) were dissolved in methanol (500 μL, 7.0 vol) at temperature. The solution was concentrated to dryness and the residue (was analysed by ¹H NMR spectroscopy, XRPD and DSC, to confirm the chemical composition and salt stoichiometry (FIGS. 56-58). The material 1 was subjected in a suspension equilibration experiment in tBME (3.5 vol) at 20° C. for ca. 24 h prior to centrifuging and oven drying at 40° C. under vacuum.

Procedures—Competitive Re Proportionation of Unary and Hemi Salt Forms.

Equimolecular quantities of compound 1 Fumarate (35 mg, 1 wt) and compound 1 0.5Fumarate (35 mg, 1 wt) were stirred in tBME (250 μl, 7.0 vol) at 20° C. for 72 h. The product was isolated via centrifugation and analyzed by XRPD (FIGS. 14 and 15).

Procedures—Suspension Equilibrations at 20 and 40 r

Separate portions of compound 1 (ca 50 mg, 1.0 wt.) were charged to separate vessels. The appropriate solvents (e.g. 250 μl, 5.0 vol), as described in Table and Table were charged to the vessels and the mixtures were stirred for several days at their relevant temperatures e.g. 20 to 40° C. After this time the products were cooled, isolated by centrifugation, analyzed as wet pellet by XRPD and dried under reduced pressure at 40° C. and re-analyzed by XRPD and companion analyses for evidence of alternative crystalline forms (FIGS. 74-77).

Procedures—Thermo Cycling

Compound 1 Fumarate (75 mg, 1 wt) was weighed out in to 4 separate vials and the corresponding solvents (750 ul, 10 vol) from Table were charged.

The suspensions underwent constant amplitude thermocycling at +0.5° C./min up to 75% of the relevant solvent b.p. and −0.5° C./min down to 20° C. The thermocycle was repeated 5 times (FIGS. 16-19 and 88-102).

TABLE 69
Thermocycle experiment setup description starting from amorphous
compound 1
Input
weight			Solvent		Thermocycle
(mg)	Solvent A	Solvent B	ratio	b.p. (° C.)	peak T (° C.)
75.6	MEK	Heptane	(1 to 1)	ca. 90	68
75.8	tBME	—	100.0%	55	41
75.1	IPAC	—	100.0%	89	67
75.8	Tolune	—	100.0%	110	82

Procedures—Heat-Up, Cool Down (HUCD) Crystallization in Different Solvents

Separate portions of compound 1 Fumarate (75 mg, 1.0 wt.) were charged to separate vessels. The appropriate solvents (750 μl) were charged to the relevant vessels and subsequent charges of the appropriate co-solvent were made to accomplish dissolution. The solutions were cooled to 18 to 23° C. and allowed to stand undisturbed, until crystallization was judged complete. After this time the products were isolated by centrifugation, washed with recycled maturation solvent, dried under reduced pressure at 40° C. and analyzed by XRPD for evidence of alternative crystalline forms (FIG. 103).

Procedures—Mechanochemistry (LAG)

Compound 1⋅Fumarate (EXP-21-IS3344, 75 mg) and one ball-bearing (7.0 mm, 1.4 g) were placed inside a steel vessel (1.5 ml), and attached to a Retsch MM 500, VARIO mixer-mill.

The vessel was oscillated at 500 rpm for 30 minutes, under neat grinding condition (NG, suffix -A) and liquid assisted grinding condition (LAG, methanol η=0.5, suffix -B).

Procedures Vapor Diffusion Screen

Compound 1 Fumarate (4×75 mg) was weighed out in to 4 separate snap-top vials and Solvent A (375 ul) was charged to each vial. Gentle warming was applied to ensure full dissolution and the vials (open) were placed inside amber jars vials that contained 6 ml of Solvent B. The 4 jars that contained the vials were left standing at 20° C., to allow slow movement of the diffusant solvent from the outer jar into the solvent inside the smaller, open wide-necked vessel and promote crystallization by altering the solvent composition.

TABLE 70
Vapor diffusion expriment setup description
	Input		Solvent		Co-Solvent
	weight		Volume		volume
	(mg)	Solvent A	(ml)	Solvent B	added (ml)
	75.7	Water	0.375	Acetone	6.0
	76.2	MEK	0.375	tBME	6.0
	75.4	BuOH	0.375	Heptane	6.0
	74.4	MEK	0.475	Water	6.0

Procedures—Evaporation Screen

Crystallisation of the API was examined by changing the composition of the crystallisation solvent by evaporation of a volatile diluent. This technique is useful for generating kinetic forms and solvates. Separate portions of compound 1⋅Fumarate (ca 50 mg, 1.0 wt.) were charged to separate vessels. The appropriate solvents (1 ml, 20.0 vol) were charged to the relevant vessels full dissolution was accomplished at 20° C. The products were analysed by XRPD and companion analyses, for evidence of alternative crystalline forms (FIG. 118-151).

Procedures—In-Situ Hydration Evaluation

An XRPD plate was made up with a small amount of compound 1⋅Fumarate (batch 1, 5 mg, 1.0 wt) and analysed by XRPD on the 9-minute method and labelled as T=0. After the run, the sample was charged with purified water (10 μL, 2.0 vol) and analysed again by XRPD, labelled as T=9. This was repeated twice more for T=18 and T=27. The sample was left to stand under ambient conditions (15-25° C., ambient humidity, and pressure) in the fume hood for 33 h (FIG. 23).

Procedures—Form Control: Suspension Equilibration in MEK at 20° C.

Compound 1 Fumarate (1.0 g, 1 wt) was suspended in MEK (2.5 ml, 2.5 vol) at 20° C. for ca 24 h. The suspension was filtered through a sintered funnel and the filter cake was dried under nitrogen flow for ca. 3 h prior to oven-drying under vacuum at 40° C. for ca. 24 h. The product was collected as a light-yellow solid (635.7 mg, 63% yield uncorr.).

Procedures Preparation of Form B: Suspension in tBME at 20° C.

Attempt #1: compound 1 fumarate (batch 1,100.0 mg, 1.0 wt) was suspended in tBME (500 ul, 5.0 vol) at 20° C. and stirred for ca. 4 days. The resultant solids were filtered and analysed as a wet pellet by XRPD (FIG. 25).

Attempt #2: compound 1 fumarate (batch 1, 75.0 mg, 1 wt) was in tBME (375 ul, 5.0 vol) at 20° C. for ca. 18 h. and was isolated by suction filtration and dried under sustained nitrogen flux at 20° C., over 20 h and analyzed by XRPD. The diffractogram matched a v. disordered Form A (FIG. 26).

Attempt #3: Compound 1 fumarate (75.0 mg, 1 wt) was dissolved in methanol (338 ul, 4.5 vol) and tBME (500 ul, 5.0 vol) was charged in one portion to achieve rapid (kinetic) precipitation (observation: feint suspension). The resultant solids were isolated by suction filtration, pulled free of surplus solvents, and analysed by XRPD. All three outputs above matched Form A (FIG. 27).

Procedures—Crystallization Experiments to Grow Single Crystal of Form A

Amorphous compound 1 ⋅Fumarate (batch 1, 57.1 mg, 1.0 wt) was dissolved in DCM (5.0 ml, 87.6 vol) and was evaporated to give a solid sample of Form A.

A crystalline sample of Form A which had been recrystallised from DCM, was isolated and submitted by Aptuit. A small portion of this sample was suspended in perfluoro ether oil and a suitable colourless block-shaped crystal with dimensions 0.18×0.09×0.09 mm³ was selected. This crystal was mounted on a MITIGEN holder oil on a Rigaku 007HF diffractometer with HF Varimax confocal mirrors, an UG2 goniometer and HyPix 6000HE detector. The crystal was kept at a steady T=100(2) K during data collection. The structure was solved with the She1XT 2014/5 (Sheldrick, 2014) solution program using dual methods and by using Olex2 1.5 (Dolomanov et al., 2009) as the graphical interface. The model was refined with SheIXL 2014/7 (Sheldrick, 2015) using full matrix least squares minimisation on F².

X-ray data were collected upon a colourless block-shaped crystal with dimensions 0.18×0.09×0.09 mm³, which was mounted on a MITIGEN holder oil. X-ray diffraction data were collected using a Rigaku 007HF diffractometer with HF Varimax confocal mirrors, an UG2 goniometer and HyPix 6000HE detector equipped with an Oxford Cryosystems low-temperature device, operating at T=100(2) K.

Data were measured using profile data from w-scans of 0.5° per frame for 1.0/0.2 s using Cu K_α radiation (Rotating anode, 40.0 kV, 30.0 mA). The total number of runs and images was based on the strategy calculation from the program CrysAlisPro 1.171.42.61a (Rigaku OD, 2022). The maximum resolution achieved was Q=76.947°.

Cell parameters were retrieved using the CrysAlisPro 1.171.42.61a (Rigaku OD, 2022) software and refined using CrysAlisPro 1.171.42.61a (Rigaku OD, 2022) on 15272 reflections, 81% of the observed reflections. Data reduction was performed using the CrysAlisPro 1.171.42.61a (Rigaku OD, 2022) software which corrects for Lorentz polarisation. The final completeness is 100.00% (IUCr) out to 76.947° in Q.

A multi-scan absorption correction was performed using CrysAlisPro 1.171.42.61a (Rigaku Oxford Diffraction, 2022) Empirical absorption correction using spherical harmonics, implemented in SCALE3 ABSPACK scaling algorithm. The absorption coefficient m of this material is 0.782 mm⁻¹ at this wavelength (1=1.54184 Å) and the minimum and maximum transmissions are 0.640 and 1.000.

The structure was solved in the space group P2₁2₁2₁ (#19) by using dual methods using the She1XT 2014/5 (Sheldrick, 2014) structure solution program and refined by full matrix least squares minimisation on F² using version 2014/7 of She1XL 2014/7 (Sheldrick, 2015). All non-hydrogen atoms were refined anisotropically. The position of the 0-H atom HSA and the N—H atom H2 were located from the electron difference map and refined with their thermal parameters linked to their parent atoms. The positions of the remaining H atoms were calculated geometrically and refined using the riding model.

There was a single molecule in the asymmetric unit, which is represented by the reported sum formula. In other words: Z is 4 and Z′ is 1.

Characterization Data:

Amorphous Compound 1 ⋅Fumarate (Batch 1)

TABLE 71
Batch used for the crystallisation development experiments.
Batch	HPLC	Q 1H NMR	KF	XRPD
references	(% area)	(% w/w)	(% w/w water)	assignment
Batch 1	93.83	96.9	0.7	Amorphous

Chemical Data:

• • IUPAC Name:
• (2E)-but-2-enedioic acid; [(2R)-1-(5-methoxy-1H-indol-1-yl) propan-2-yl] dimethylamine
  • Mass: 348.40
  • Exact mass: 348.17
  • Formula: C₁₈H₂₄N₂O₅
  • Composition: C (62.1%), H (6.91%), N (8.0%), O (23.0%)

Single Crystal Experiment Data:

TABLE 72
Single Crystal Data
	Compound
	Formula	C18H24N2O5
	Dcalc./g cm−3	1.292
	m/mm−1	0.782
	Formula Weight	348.39
	Colour	colourless
	Shape	block-shaped
	Size/mm3	0.18 × 0.09 × 0.09
	T/K	100	(2)
	Crystal System	orthorhombic
	Flack Parameter	−0.01	(6)
	Hooft Parameter	−0.02	(6)
	Space Group	P212121
	a/Å	9.03500	(10)
	b/Å	9.44030	(10)
	c/Å	21.0000	(2)
	a/°	90
	b/°	90
	g/°	90
	V/Å3	1791.16	(3)
	Z	4
	Z′	1
	Wavelength/Å	1.54184
	Radiation type	Cu Ka
	Qmin/°	4.210
	Qmax/°	76.947
	Measured Refl's.	18799
	Indep't Refl's	3737
	Refl's I ≥ 2 s(I)	3628
	Rint	0.0414
	Parameters	236
	Restraints	0
	Largest Signal	0.126
	Deepest Hole	−0.213
	GooF	1.055
	wR2 (all data)	0.0750
	WR2	0.0739
	R1 (all data)	0.0303
	R1	0.0292

TABLE 73
Single Crystal Reflections and Refinement
Reflections:	d min (Cu\a)	0.79	I/σ (I)	34.1	Rint	4.14%	Full 135.4°	100
	2 θ = 153.9°						99% to 153.9°
Refinement:	Shift	−0.001	Max Peak	0.1	Min Peak	−0.2	GooF	1.055	Hooft	−.02(6)

TABLE 74
Single Crystal Reflection Statistics
Total reflections	18868	Unique reflections	3737
(after filtering)
Completeness	0.987	Mean I/s	25.56
hklmax collected	(11, 11, 25)	hklmin collected	(−10, −10, −26)
hklmax used	(11, 11, 26)	hklmin used	(−11, 0, 0)
Lim dmax	100.0	Lim dmin collected	0.77
collected
dmax used	21.0	dmin used	0.79
Friedel pairs	1842	Friedel pairs merged	0
Inconsistent	0	Rint	0.0414
equivalents
Rsigma	0.0293	Intensity transformed	0
Omitted	0	Omitted by user	0
reflections		(OMIT hkl)
Multiplicity	(4063, 1985,	Maximum	15
	1324, 726, 387,	multiplicity
	199, 86, 24, 4)
Removed	69	Filtered off	0
systematic		(Shel/OMIT)
absences

TABLE 75
Fractional Atomic Coordinates (×104) and Equivalent Isotropic
Displacement Parameters (Å2 × 103) for 2022NCSC0333b. Ueg is
defined as ⅓ of the trace of the orthogonalised Uij.
Atom	x	y	z	Ueq
O1	11107.9	(13)	3999.9	(14)	3816.7	(6)	25.3	(3)
N1	5415.0	(15)	3970.2	(15)	4744.0	(6)	19.7	(3)
N2	4264.3	(15)	6096.0	(14)	6174.4	(6)	18.8	(3)
C1	11332	(2)	3788	(2)	3149.2	(8)	27.3	(4)
C2	8461.4	(18)	3617.6	(16)	3655.1	(7)	19.0	(3)
C3	9665.4	(18)	3967.8	(16)	4029.4	(8)	19.7	(3)
C4	9504.7	(19)	4317.5	(17)	4679.8	(8)	21.1	(3)
C5	8133.2	(19)	4359.5	(17)	4965.6	(8)	20.5	(3)
C6	6905.7	(18)	4021.0	(16)	4589.9	(7)	18.0	(3)
C7	7050.2	(18)	3636.2	(17)	3941.5	(7)	18.1	(3)
C8	5590.8	(19)	3337.2	(17)	3715.8	(8)	21.1	(3)
C9	4640.5	(19)	3552.1	(18)	4211.4	(8)	22.1	(3)
C10	4786.1	(19)	4265.8	(17)	5364.0	(7)	20.2	(3)
C11	4620.1	(18)	5868.1	(17)	$478.5	(7)	19.1	(3)
C12	3512	(2)	6551.6	(19)	5033.4	(8)	27.1	(4)
C13	2818.6	(19)	5498.2	(19)	6384.7	(8)	24.5	(3)
C14	4381	(2)	7621.5	(17)	6354.9	(9)	26.3	(4)
O2	6248.1	(14)	4864.2	(13)	6925.7	(6)	24.9	(3)
O3	7694.7	(13)	5221.5	(13)	6317.8	(5)	23.5	(3)
O4	11445.5	(14)	3608.9	(15)	7643.4	(6)	29.1	(3)
O5	10027.7	(14)	2797.4	(13)	8440.4	(6)	24.1	(3)
C15	7498.8	(19)	5322.0	(17)	6755.1	(8)	20.5	(3)
C16	8849.5	(19)	4736.7	(17)	7070.8	(8)	21.9	(3)
C17	8861.0	(18)	4106.8	(17)	7634.8	(8)	21.3	(3)
C18	10253.1	(19)	3506.4	(17)	7902.4	(8)	20.7	(3)

TABLE 76
Anisotropic Displacement Parameters (×104) for 2022NCSC0333b. The
anisotropic displacement factor exponent takes the form: −2p2[h2a*2 × U11 + . . . + 2hka* × b* × U12]
Atom	U11	U22	U33	U23	U13	U12
O1	17.5(5)	33.7(6)	24.6(6)	0.4(5)	2.6(5)	0.6(5)
N1	18.3(6)	22.5(6)	18.2(6)	−0.1(5)	1.6(5)	−1.5(5)
N2	18.1(6)	18.8(6)	19.3(6)	0.6(5)	2.1(5)	0.9(5)
C1	23.5(8)	32.4(9)	25.9(8)	2.4(7)	5.5(7)	2.0(7)
C2	20.3(8)	18.1(7)	18.7(7)	0.6(6)	0.7(6)	2.0(6)
C3	17.4(7)	17.6(7)	24.0(7)	2.3(6)	1.1(6)	1.0(6)
C4	20.6(8)	21.5(7)	21.4(7)	−0.4(6)	−3.6(6)	−0.7(6)
C5	24.3(8)	19.2(7)	18.1(7)	−1.8(6)	−1.3(6)	0.0(6)
C6	19.0(7)	15.6(6)	19.5(7)	−0.1(6)	0.3(6)	0.9(6)
C7	20.3(8)	16.7(7)	17.2(7)	0.6(6)	0.1(6)	0.8(6)
C8	23.0(8)	22.6(7)	17.9(7)	−0.8(6)	−1.7(6)	−2.7(6)
C9	18.7(7)	23.2(7)	24.5(8)	0.9(6)	−1.6(6)	−2.1(6)
C10	21.9(7)	20.3(7)	18.3(7)	1.6(6)	3.2(6)	−0.3(6)
C11	19.8(7)	19.3(7)	18.3(7)	2.0(6)	3.3(6)	0.5(6)
C12	33.7(10)	24.3(8)	23.5(8)	3.8(6)	−2.3(7)	3.8(7)
C13	19.2(8)	28.7(8)	25.6(8)	2.1(7)	6.7(6)	0.3(6)
C14	31.6(9)	20.2(7)	27.3(8)	−3.1(6)	4.0(7)	1.5(7)
O2	18.1(6)	28.3(6)	28.4(6)	3.4(5)	0.4(5)	−0.2(5)
O3	22.9(6)	27.5(6)	20.2(5)	1.8(5)	−2.4(4)	−2.7(5)
O4	19.5(6)	38.3(7)	29.5(6)	6.5(6)	0.5(5)	−2.5(5)
O5	23.4(6)	25.8(6)	23.0(6)	2.6(5)	1.1(5)	2.1(5)
C15	20.5(8)	22.7(7)	18.3(7)	−4.4(6)	−0.3(6)	0.1(6)
C16	18.3(8)	24.6(7)	22.8(7)	−1.0(6)	1.2(6)	−1.1(6)
C17	19.1(7)	22.3(7)	22.5(7)	−2.0(6)	1.4(6)	−0.4(6)
C18	21.6(8)	20.5(7)	20.2(7)	−2.5(6)	−0.3(6)	−2.1(6)

TABLE 77
Bond Lengths in Å for 2022NCSC0333b.
	c	Atom	Length/Å
	O1	C1	1.430	(2)
	O1	C3	1.378	(2)
	N1	C6	1.386	(2)
	N1	C9	1.377	(2)
	N1	C10	1.448	(2)
	N2	C11	1.512	(2)
	N2	C13	1.490	(2)
	N2	C14	1.493	(2)
	C2	C3	1.382	(2)
	C2	C7	1.410	(2)
	C3	C4	1.413	(2)
	C4	C5	1.377	(2)
	C5	C6	1.398	(2)
	C6	C7	1.415	(2)
	C7	C8	1.429	(2)
	C8	C9	1.364	(2)
	C10	C11	1.539	(2)
	C11	C12	1.514	(2)
	O2	C15	1.262	(2)
	O3	C15	1.263	(2)
	O4	C18	1.211	(2)
	O5	C18	1.329	(2)
	C15	C16	1.495	(2)
	C16	C17	1.325	(2)
	C17	C18	1.490	(2)

TABLE 78
Bond Lengths in Å for 2022NCSC0333b.
	Atom	Atom	Atom	Angle/°
	C3	O1	C1	116.66	(13)
	C6	N1	C10	125.78	(14)
	C9	N1	C6	108.30	(13)
	C9	N1	C10	125.89	(14)
	C13	N2	C11	114.77	(13)
	C13	N2	C14	110.63	(13)
	C14	N2	C11	111.57	(13)
	C3	C2	C7	117.78	(14)
	O1	C3	C2	124.42	(15)
	O1	C3	C4	113.92	(14)
	C2	C3	C4	121.66	(15)
	C5	C4	C3	121.37	(15)
	C4	C5	C6	117.46	(14)
	N1	C6	C5	130.32	(15)
	N1	C6	C7	107.78	(14)
	C5	C6	C7	121.90	(15)
	C2	C7	C6	119.81	(15)
	C2	C7	C8	133.65	(14)
	C6	C7	C8	106.54	(14)
	C9	C8	C7	107.35	(14)
	C8	C9	N1	110.02	(15)
	N1	C10	C11	111.61	(13)
	N2	C11	C10	108.16	(12)
	N2	C11	C12	113.29	(13)
	C12	C11	C10	112.76	(14)
	O2	C15	O3	124.20	(16)
	O2	C15	C16	118.60	(15)
	O3	C15	C16	117.16	(15)
	C17	C16	C15	124.65	(16)
	C16	C17	C18	120, 96	(15)
	O4	C18	O5	123.96	(16)
	O4	C18	C17	123.47	(15)
	O5	C18	C17	112.51	(14)

TABLE 79
Torsion Angles in ° for 2022NCSC0333b.
Atom	Atom	Atom	Atom	Angle/°
O1	C3	C4	C5	178.87	(15)
N1	C6	C7	C2	179.16	(14)
N1	C6	C7	C8	−0.66	(17)
N1	C10	C11	N2	−168.45	(13)
N1	C10	C11	C12	65.47	(18)
C1	O1	C3	C2	6.3	(2)
C1	O1	C3	C4	174.23	(14)
C2	C3	C4	C5	−1.7	(2)
C2	C7	C8	C9	−179.29	(17)
C3	C2	C7	C6	0.7	(2)
C3	C2	C7	C8	−179.53	(17)
C3	C4	C5	C6	1.0	(2)
C4	C5	C6	N1	179.84	(16)
C4	C5	C6	C7	0.5	(2)
C5	C6	C7	C2	−1.4	(2)
C5	C6	C7	C8	178.79	(15)
C6	N1	C9	C8	−0.28	(19)
C6	N1	C10	C11	80.99	(19)
C6	C7	C8	C9	0.50	(18)
C7	C2	C3	O1	179.83	(15)
C7	C2	C3	C4	0.8	(2)
C7	C8	C9	N1	−0.14	(19)
C9	N1	C6	C5	−178.81	(16)
C9	N1	C6	C7	0.59	(18)
C9	N1	C10	C11	−100.96	(19)
C10	N1	C6	C5	−0.5	(3)
C10	N1	C6	C7	178.92	(14)
C10	N1	C9	C8	−178.61	(14)
C13	N2	C11	C10	−64.52	(17)
C13	N2	C11	C12	61.25	(18)
C14	N2	C11	C10	168.64	(14)
C14	N2	C11	C12	−65.59	(18)
O2	C15	C16	C17	−21.4	(2)
O3	C15	C16	C17	160.67	(16)
C15	C16	C17	C18	177.70	(15)
C16	C17	C18	O4	3.5	(3)
C16	C17	C18	O5	−173.83	(15)
Atom	x	y	z	Ueq
H1A	10737	4449	2914	41
H1B	11054	2839	3037	41
H1C	12357	3935	3048	41
H2	5110 (30)	5620 (30)	6430 (12)	33
H5A	10850 (30)	2250 (30)	8539 (13)	41
H2A	8578	3378	3228	23
H4	10342	4524	4920	25
H5	8028	4604	5392	25
H8	5336	3049	3307	25
H9	3620	3434	4192	27
H10A	5418	3865	5691	24
H10B	3823	3818	5396	24
H11	5585	6305	5396	23
H12A	2549	6153	5107	41
H12B	3802	6382	4600	41
H12C	3482	7553	5111	41
H13A	2026	6012	6186	37
H13B	2735	5578	6839	37
H13C	2762	4519	6264	37
H14A	5323	7985	6221	39
H14B	4292	7714	6808	39
H14C	3604	8147	6151	39
H16	9746	4820	6856	26
H17	7987	4039	7867	26

TABLE 80
Hydrogen Bond information for 2022NCSC0333b.
D	H	A	d(D − H)/Å	d(H − A)/Å	d(D − A)/Å	D − H − A/deg
N2	H2	O2	1.03(3)	1.63(3)	2.6559(19)	171(2)
O5	H5A	O31	0.93(3)	1.66(3)	2.5895(18)	177(3)

Example 8. Screening for Additional Salts and Polymorphs for Compound 1

TABLE 81
Abbreviations used in Example 8.
φi     Water activity coefficient
aw     Water activity
ASD    Amorphous solid dispersion
ca.    circa (Latin: approximately)
cf.    Confer/conferatur (Latin: to confer, to compare)
° C.   degree Celsius
CP     Chemical Purity
CP-MAS Cross Polarised Magic Angle Spinning (13C NMR solid state
       technique)
Da     Dalton
DSC    Differential Scanning Calorimetry (measures changes in heat
       capacity)
DTA    Differential Thermal Analyses (measures changes in
       temperature)
DVS    Dynamic Vapour Sorption (used interchangeably with GVS)
e.g.   Exempli gratia (Latin: for example)
etc.   Et cetera (Latin: ′and others′ or ′and so on′)
FT-IR  Fourier Transformed, InfraRed spectroscopy (prefixed mid
       and far)
g      Gram (s)
GRAS   Generally Recognised As Safe
GVS    Gravimetric Vapour Sorption
h      Hour (s)
HPLC   High Performance Liquid Chromatography
HSM    Hot Stage Microscopy (thermal microscopy)
HUCD   Heat-up/cool-down crystallisation
i.e.   Id Est (Latin: that is)
IR     InfraRed Spectroscopy
J      Joule
Kelvin Kelvin. SI unit of temperature, used interchangeably with ° C.
       to express increment/decrement of temperature set point (e.g.
       ramp rate on DSC thermogram 10K/min); note K sign not
       prefixed by.
KF     Karl Fischer (determination of the water content by
       coulometric titration)
kg     Kilogram (s)
LAG    Liquid-Assisted grinding
LOD    Loss On Drying
mag    magnification
mAu    milli-Absorption units (chromatographic unit of signal height)
mAu*s  milli-Absorption units multiplied by second (chromatographic
       unit of signal area)
MET/CR Aptuit chromatography method reference
mir    Minute (s)
mg     Milligram (s)
ml     Millilitre (s)
mol    mole, amount of substance
N/A    Not Applicable
n.a.   not analysed
n.d.   not detected
NG     Neat grinding
nm     nanometre
NMR    Nuclear Magnetic Resonance
oab    on anhydrous basis
osfb   on solvent free basis
oasfb  on anhydrous solvent free basis
pH     −log [H+] or pH = −log aH+
pKa    −log (Ka), acid dissociation constant
pl     isoelectric point, quoted in unit pH
PLM    Polarised Light Microscopy
RelRT  Relative Retention Time (not be confused RT)
REP/   Aptuit report (REP) reference
RFA    Request For Analysis (unique reference number)
RH     Relative Humidity (aw * 100)
RT     Room Temperature (ambient, typically: 18 to 23° C.)
s      Second (s)
SCXD   Single Crystal X-Ray Determination
SMPT   Solvent mediated phase transition
STA    Simulated Thermal Analysis (STA = TGA + DTA)
t      time in seconds, minutes, hour, days etc. (interval specified in
       parentheses); alias in common use tonne (t)
t      Tonne, metric unit of mass (1000 kg; 1 Mg), (compaction
       force in kg, suffixed in parentheses)
T      Temperature recorded in degrees Celsius (° C.); alias in
       common use, SI unit of magnetic flux density, also denoted T
MTBE   Methyl tert-butyl ether
TCNB   2,3,5,6-Tetrachloronitrobenzene (C6HCl4NO2, F.W. 260.89
       gmol−1)
TFE    Trifluoroethanol (solvent used for solvent drop grinding)
TGA    Thermogravimetric Analysis
th.    theoretical
UV     Ultra Violet
vol.   Volume or relative volume
vs.    versus
v/v    volume/volume
W      Watt
w/w    weight/weight
XRPD   X-Ray Powder Diffraction

TABLE 82
Definitions of terms used in Example 8.
Isostructural         Crystals are said to be isostructural if they have the same crystal
                      structure but not necessarily the same cell dimensions nor the same
                      chemical composition (Kálmán, A., Párkányi, L. & Argay, G. (1993)
                      Acta Cryst. B49, 1039-1049.)
Isomorphic            two crystalline solids are isomorphous if both have the same unit-cell
                      dimensions and space group (source, vide supra).
Isomorphic desolvate  via solvent release from an isostructural solvate.
Native                Refers to an API in its native or non-ionised form.
Normal light          Light oscillating in all directions perpendicular to the axis to which
                      the it travels.
Particle size         Expressed as a volume distribution, the range x10 >PSD< x90 cap-
                      tures the sizes of 80% of the particles.
Plane polarised light Light passed through a polaroid filter which allows only light oscillat-
                      ing in one plane to be transmitted.
Polymorphism          Crystalline solid able to exhibit different crystalline phases.
Photomicrograph       Imaged captured of a small object under magnification through an
                      optical microscope.
Pseudopolymorphism    Different crystal structure attributed to the incorporation of molecular
                      water or solvent.
Solvates              Contains a molecule of solvent in the crystal lattice.
Thermogram            Differential scanning calorimetry trace: heat flow on y-ordinate (mW),
                      time (minutes)/temperature (° C.) on x-ordinate.

Summary

Non-ionised compound 1 (batch 1) was supplied as an amorphous, semi-solid.

The non-ionised form of compound 1 was screened against 19 common, Classes 1, 2 and 3 acidic counter-ions in selected solvents. The salt screen of the API delivered multiple hits and these hits were assessed based on the following desirable characteristics:

• • Flat baseline and single melt by DSC.
  • Flat baseline by TGA.
  • Unique powder diffraction pattern by XRPD.
  • Reduced impurity burden by ¹H NMR.
  • Optically crystalline material under cross-polarised filter.

Based on the above criteria, several salts were selected for further experiments:

• • compound 1 HCl.
  • compound 1 Maleate.
  • compound 1 Benzoate.

This set of API salts underwent several physicochemical examinations consisting of:

• • Determination of solubility in fasted state simulated intestinal fluid (FaSSIF), fed state simulated intestinal fluid (FeSSIF) and fasted state simulated gastric fluid (FaSSGF) buffers and the pH adjusted after each time point and solid-phase, residue analyses.
  • Evaluation of stability at 40° C./75% RH for 10 days.
  • Analyses by DVS, under mass equilibrated condition.

The above studies were concluded and compound 1.1-1C1 was nominated as the preferred salt form to be progressed into polymorph screening, the exhibited the following favourable outcomes:

• • Chemically and physically stable, during stability at 40° C./75% RH.
  • Freely soluble in the SIF buffers and disproportionation not observed.
  • Exhibited higher crystallographic quality, expected to give good impurity and solvent rejection during scale-up.

Project Design

The objective of the salt screen is to identify a more readily isolable form of each compound suitable for development scale-up.

Typically, for each salt screen, the activities detailed below were performed.

Full Physical Characterization of the Native Form of the API

• • ¹H-NMR spectroscopy was performed to confirm the identity and measure residual solvent content.
  • Q ¹H-NMR spectroscopy assay (versus an internal standard) was performed to confirm w/w % composition.
  • Physical characterization of the API was performed and included:
    • DSC to provide an evaluation of transition activity, solvent release, melt and decomposition events; modulated DSC, where necessary, to deconvolute complex thermal transitions
    • TGA, to provide alignment of key DSC events with weight loss transition activity
    • ¹H-NMR spectroscopy after key thermal events to confirm that chemical identity is unchanged (where relevant)
    • DVS (0% to 90% to 0%) and XRPD analysis after full cycle
    • XRPD analyses using 20-minute acquisition, performed first on the native form and second after pestle and mortar grinding to determine if the sample suffers from preferred orientation/strain effects and if grinding improves powder averaging
    • Optical microscopy under cross-polarized filter, to provide an informal assessment of the presence of optically amorphous material

Salt Screen

Different counter-ions were screened based on the structure and calculated pKe of the API.

Once crystalline products were generated, the analyses and physical characterizations described above were performed:

Salt Selection

At this stage ca. 1 g of each front-runner salt form was prepared. Salt forms that offered significant solubility and stability advantages over the non-ionized API were prioritized. The following physicochemical evaluations were performed:

• • Determination of solubility in SIF buffers:
    • a HPLC calibration curve of the native API was prepared;
    • non-buffered aqueous solubility of the API was measured at the 1-, 3-, 6- and 20-hour time points; the residues were analyzed wet after centrifugation and dry after oven treatment and compared with the non-ionized versions of the API and counter-ion, and
    • solubility was measured in FaSSIF, FeSSIF and FaSSGF buffers and the pH adjusted after each time point and solid-phase residues were analysed.
  • Evaluation of stability condition: 40° C./75% RH for 5 and 10 days.
  • Analyses by dynamic vapor sorption (DVS) and residue (post treatment).

Scale Up

Compound 1 HCl was subjected to polymorph screening.

TABLE 83
Characterization of crystalline compound 1 HCI salt
Provenances of
reference batches        Compound 1 HCl (Form A)
Preparation I:,          Molecular weight: 268.79 gmol−1
obtained from heat-up/   Exact molecular weight: 268.1342
cool-down                Molecular formula: C14H20N2O•HCl
crystallization of       Unary hydrochloride: 13.6% w/w th., hydrochloric acid (i.e., 1.0 mol of
amorphous                API to 1.0 mol water)
compound 1 with          XRPD: 12.4°, 13.5°, 14.2°, 15.3º, 17.5°, 17.8°, 18.0°, 18.6°, 19.9º, 20.4º,
hydrochloric acid        21.7°, 24.9°, 25.4°, 25.9°, 27.3°, 28.0°, 28.4°, 29.0°, 90.3º, 32.2° (2θ, 1
(35% v/v aq.) in         d.p), (Refer to FIG. 182).
ethanol (2.0 vol) at 85° DSC: onset 205.7° C. (−99.7 Jg−1, endotherm, melt), 221.9° C. (79.8
C. The product was       Jg−1 exotherm, decomposition) (Refer to FIG. 180 and 190).
isolated by              TGA: onset 243.3º C. (−71.9% w/w, ablation), 316.6° C. (−3.5% w/w,
centrifugation and       ablation), (Refer to FIG. 195).
was oven-dried under     DVS 0 to 90 to 0% RH (dm/dt <0.002%): 0.0 (0.00%), 5.0 (0.00%), 10.0
reduced pressure over    (0.02%), 15.0 (0.02%), 20.0 (0.03%), 25.0 (0.04%), 30.0 (0.05%), 40.0
20 h at 40° C. (FIGs.    (0.07%), 50.0 (0.10%), 60.0 (0.14%), 70.0 (0.19%), 80.0 (0.26%), 90.0
216-218, 220, 222)       (0.46%), 90.0 (0.46%), 80.0 (0.29%), 70.0 (0.22%), 60.0 (0.17%), 50.0
Preparation II:          (0.14%), 40.0 (0.10%), 30.0 (0.09%), 25.0 (0.07%), 20.0 (0.06%), 15.0
amorphous                (0.05%), 10.0 (0.04%), 5.0 (0.03%), 0.0 (0.02%) (Refer to FIG. 191).
compound was             UV chromatographic purity: 99.60% area (254 nm), (Refer to FIG. 194).
crystallized from        1H NMR: (DMSO-d6, 400 MHz); δ 11.2 (s, 1H), 7.6 (d, J = 8.9 Hz, 1H),
ethanol (2.0 vol),       7.4 (d, J = 3.1 Hz, 1H), 7.1 (d, J = 2.4 Hz, 1H), 6.8 (dd, J = 8.9, 2.4 Hz,
isolated by filtration,  1H), 6.4 (dd, J = 3.1, 0.6 Hz, 1H), 4.7 (dd, J = 13.7, 4.2 Hz, 1H), 4.3 (dd,
and dried under          J = 14.1, 9.8 Hz, 1H), 3.7 (s, 4H), 2.7 (dd, J = 19.2, 4.9 Hz, 6H), 1.1 (d,
sustained nitrogen       J = 6.6 Hz, 3H); ppm; conforms to the molecular structure (Σ21H), (re-
flux (<1 bar) over 20    fer to FIG. 179 and 189).
h at 20° C. (FIGs.       Residual solvents ICH Q3C (R8): (ethanol 0.02% w/w, ICH listed 5000
179-182, 189-197,        ppm).
270, 274, 280, and       Appearance: Refer to FIG. 192 and 193.
286).

TABLE 84
Characterization of crystalline compound 1 Maleate salt
Provenances of
reference batches         Compound 1 Maleate
Preparation I: (refer     Molecular weight: 348.40 gmol−1
to FIGs. 206 and 223-     Exact molecular weight: 348.168
227), obtained from       Molecular formula: C18H24N2O5
heat-up/cool-down         Unary maleate: 33.3% w/w th., maleic acid (i.c., 1.0 mol of API to 1.0
crystallization of EXP-   mol water)
21-IS3344 with maleic     XRPD: 9.4°, 10.9°, 11.8°, 16.9º, 18.6°, 19.2°, 20.9°, 21.6°, 22.2°, 23.7º,
acid in ethanol (2.0      25.0°, 26.0°, 26.5° (2θ, 1 d.p), (Refer to Section FIG. 206, 168, 224,
vol) at 85° C. The        205, and 271).
product was isolated by   DSC: onset 54.7° C. (−1.0 Jg−1, endotherm), 138.9° C. (−79.2 Jg−1,
centrifugation and was    endotherm, melt), 176.0° C. (20.2 Jg−1, exotherm, decomposition)
oven-dried under          (Refer to FIG. 225, 226, 200, and 176-178).
reduced pressure over     TGA: onset 200.0° C. (−34.4% w/w, ablation), 240.4° C. (−33.7% w/w,
20 h at 40° C.            ablation), (Refer to FIG. 227, 204, and 290).
Preparation II: batch;    DVS 0 to 90 to 0% RH (dm/dt <0.002%): 0.0 (0.00%), 5.0 (0.02%),
Compound 1 maleate        10.0 (0.05%), 15.0 (0.08%), 20.0 (0.11%), 25.0 (0.14%), 30.0 (0.18%),
was crystallized from     40.0 (0.26%), 50.0 (0.42%), 60.0 (0.86%), 70.0 (1.38%), 80.0 (2.00%),
ethanol (2.0 vol),        90.0 (3.44%), 90.0 (3.44%), 80.0 (2.03%), 70.0 (1.40%), 60.0 (1.00%),
isolated by filtration,   50.0 (0.70%), 40.0 (0.48%) 30.0 (0.30%), 25.0 (0.22%), 20.0 (0.15%),
and dried under           15.0 (0.09%), 10.0 (0.03%), 5.0 (−0.03%), 0.0 (−0.07%) (Refer to FIG.
sustained nitrogen flux   199).
(<1 bar) over 20 h at 20° UV chromatographic purity: 99.22% area (254 nm), (Refer to FIG. 203).
C. (FIGs. 176-178,        1H NMR: (DMSO-d6, 400 MHZ); δ 7.5 (d, J = 8.9 Hz, 1 H), 7.4 (d, J =
198, 199, 201-206, 271,   3.1 Hz, 1H), 7.1 (d, J = 2.4 Hz, 1H), 6.8 (dd, J = 8.9, 2.4 Hz, 1H), 6.4
275, 282, and 290)        (dd, J = 3.1, 0.6 Hz, 1H), 6.1 (s, 2H), 4.6 (dd, J = 14.3, 5.0 Hz, 1H), 4.3
                          (dd, J = 14.3, 9.2 Hz, 1H), 3.7 (s, 3H), 2.8 (s, 6H), 1.1 (d, J = 6.7 Hz,
                          3H); ppm; conforms to the molecular structure (Σ22H), (Refer to FIG.
                          223, 198, and 275).
                          Residual solvents ICH Q3C (R8): (ethanol 0.2% w/w, ICH listed 5000
                          ppm).
                          Appearance: Refer to FIG. 201 and 202.

TABLE 85
Characterization of crystalline compound 1 Benzoate salt
Provenances of
reference batches     Compound 1•Benzoate
Preparation I         Molecular weight: 354.45 gmol−1
(FIGs 215, 228-       Exact molecular weight: 354.1943
231) obtained from    Molecular formula: C21H26N2O3
heat-up/cool-down     Unary maleate: 34.5% w/w th., benzoic acid (i.e., 1.0 mol of API to 1.0
crystallisation of    mol water)
amorphous             XRPD: 7.8°, 12.5°, 13.7°, 14.5°, 15.5°, 17.5°, 18.6°, 19.2°, 19.7º, 20.6°,
compound 1 with       23.7°, 25.2°, 25.3° (2θ, 1 d.p), (Refer to FIG. 215, 169, 229, 184, and 272).
benzoic acid in       DSC: onset 97.7º C. (−82.9 Jg−1, endotherm, melt) (Refer to FIG. 230, 208,
ethanol (2.0 vol) at  and 284).
85° C. The product    TGA: onset 102.2° C. (−1.6% w/w, solvent release), 195.8° C. (−78.57%
was isolated by       w/w, ablation), (refer to FIG. 231, 213, and 292.
centrifugation and    DVS 0 to 90 to 0% RH (dm/dt <0.002%): 0.0 (−0.004%), 0.0 (−0.02%), 5.0
was oven-dried        (0.02%), 10.0 (0.04%), 15.0 (0.06%), 20.0 (0.10%), 25.0 (0.10%), 30.0
under reduced         (0.13%), 40.0 (0.19%), 50.0 (0.30%), 60.0 (0.42%), 70.0 (0.58%), 80.0
pressure over 20 h    (0.89%), 90.0 (1.52%), 90.0 (1.52%), 80.0 (0.92%), 70.0 (0.61%), 60.0
at 40° C.             (0.41%), 50.0 (0.20%), 40.0 (−0.19%) 30.0 (−0.16%), 25.0 (−0.19%), 20.0
Preparation II        (−0.25%), 15.0 (−0.29%), 10.0 (−0.34%), 5.0 (−0.39%), 0.0 (−0.47%)
batch: compound 1     (Refer to FIG. 209).
benzoate salt was     UV chromatographic purity: 99.22% area (254 nm), (Refer to FIG. 212).
crystallized from     1H NMR: (DMSO-d6, 400 MHz); δ 7.9 (d, J = 8.2 Hz, 1 H), 7.6 (dt, J =
ethanol (2.0 vol),    13.6, 6.8, 1.3 Hz, 1H), 7.5 (t, J = 15.2, 7.2 Hz, 1H), 7.4 (d, J = 8.9 Hz, 1H),
isolated by           7.3 (d, J = 2.4 Hz, 1H), 7.0 (d, J = 2.0 Hz, 1H), 6.8 (dd, J = 9.3, 2.6 Hz,
filtration, and dried 1H), 6.3 (d, J = 2.9 Hz, 1H), 4.2 (dd, J = 14.2, 6.5 Hz, 1H), 4.0 (dd, J = 13.8,
under sustained       7.5 Hz, 1H), 3.7 (s, 3H), 3.0 (sext, J = 33.8, 20.0, 13.8, 6.7, 6.6 Hz, 6H), 2.2
nitrogen flux (<1     (s, 6H) 1.1 (d, J = 7.0 Hz, 3H); ppm; conforms to the molecular structure
bar) over 20 h at 20  (Σ25H4), (refer to FIG. 228 and 207).
°C.                   Residual solvents ICH Q3C (R8): (ethanol 0.8% w/w, ICH listed 5000
                      ppm).
                      Appearance: Refer to FIGs. 210 and 211.

Salt Screen

The objective of the salt screen was to identify a pharmaceutically acceptable crystalline salt form of the API. In addition, the elected salt form should exhibit appropriate physicochemical properties and should possess relevant toxicological considerations that are judged suitable for development scale-up. Additionally, a provisional process to access the elected salt form was evaluated.

Heat-Up Cool-Down Crystallization Salt Screen

Evidence of salt formation in the solid state was provided by the following analyses:

• • Presentation of a unique powder diffraction pattern, that exhibited significant differences from the powder patterns of compound 1 (non-ionised), the native acid counterion (also assumed non-ionised) and importantly, was non-congruent with the sum of their reflections.
  • Presence of integer stoichiometry of the counterion w.r.t. compound land a measurable change in the chemical shift of the relevant ionisable proton resonances.
  • Change in the value of melting point and OH fusion by DSC, compared to the values exhibited by compound 1 (non-ionised) and the acid counterion.

Three stable forms of salified compound 1 were identified (1.0 to 1.0 stoichiometry salts) for further experiments, specifically, HCl, Maleate and Benzoate compound 1 salts were selected for good crystallinity and little disordering by XRPD, a flat DSC baseline in conjunction with a single sharp melt event and negligible weight loss, prior to deflagration by TGA.

TABLE 87
Summary of results
		Salt
	iPAC	Stoichiometry
	content	(API to counter
Salt forms	(% w/w)	ion)	Observations
Compound	ND	1.0 to 1.0	Highly crystalline, improvement in the impurity burden was observed in aryl and
1•HCl			aliphatic regions. Single sharp melt event (204° C.) was observed.
Compound	<0.1	1.0 to 1.0	Exhibited sharp, single melt (144° C., cf. m.p. Maleic acid 135° C.) and small
1•Maleate			secondary endotherm, with onset 62° C. DSC thermocycle confirmed that the
			small event obs., is an irreversible transition
			Compound 1•Native powder diffraction pattern was amorphous.
			Several maleic acid reflections overlap with those from Compound 1•Maleate;
			however, based on the relative intensities, it is unlikely that the salt phase con-
			tains native, maleic acid.
			A simple 1 to 1 admixture of the two salt precursors would give a uniform, addi-
			tive XRPD.
Compound	0.2	1.0 to 1.0	Exhibited sharp, single endothermic event at 100° C. (benzoic acid 122° C.)
1•Benzoate			Compound 1•Native powder diffraction pattern was amorphous.
			Benzoic acid reflections were distinct from Compound 1•Benzoate, it is unlikely
			that the salt phase contains native, benzoic acid.
			A simple 1 to 1 admixture of the two salt precursors would give a uniform, addi-
			tive XRPD.
Compound	0.5	1.0 to 1.3	Broad melt event (127° C.) was observed. 4-Toluene sulfonic acid m.p. 105 to
1•Tosylate			107° C.
			Compound 1•Native, powder diffraction pattern was amorphous.
			Compound 1•Tosylate exhibited a unique powder diffraction pattern that differed
			from native, 4-toluene sulfonic acid.
			A simple 1 to 1 admixture of the two salt precursors would give an additive XRPD.
Compound	1.1	1.0 to 1.4	Exhibited sharp, single endothermic event at 107° C. (tartaric acid 169° C.)
1•Tartrate			Compound 1•Native, powder diffraction pattern was amorphous.
			Compound 1•Tartrate exhibited a unique powder diffraction pattern that differed
			from native, Tartaric acid.
			A simple 1 to 1 admixture of the two salt precursors would give an additive XRPD.
Compound	3.7	1.0 to 1.0	Crystalline, slightly increased background, increase in the impurity burden by 1H
1•HBr			NMR was observed in aryl and aliphatic regions.
			Bimodal melt (onsets 115 and 186° C.) and minor endothermic event (br. 106 to
			126° C.) was observed.
Compound	ND	1.0 to 1.0	Exhibited sharp, single endothermic event at 163° C. (Galactaric acid 230° C.).
1•Galactarate			Compound 1•Native powder diffraction pattern was amorphous.
			Several reflections from galactaric acid were congruent with those present in A
			compound 1•Galactarate; the relative intensities were also similar, it is unlikely
			that the salt is a single phase and probably contains significant non-salified,
			galactaric acid.
Compound	<0.1	1.0 to 1.7	Exhibited broad, endothermic events with onsets 81 and 205° C. (succinic acid,
1•Succinate			m.p. 185° C.)
			Compound 1•Native powder diffraction pattern was amorphous.
			Several succinic acid reflections were coincident with Compound 1•Succinate
			reflections; hence, we cannot rule out the presence of non-salified succinic acid in
			the bulk phase; this finding is consistent with 1H NMR spectroscopy, that equated
			to over unity succinic acid composition.
			A simple 1 to 1 admixture of the two salt precursors would give a uniform, addi-
			tive XRPD; co-crystallisation would exhibit unique lattice parameters

TABLE 88
Scale up to 1 g
Salt
forms	Procedure	Observations
Compound	compound 1 free base (1.0 equiv.) and	0.95 g of salt was isolated (82% yield)
1•HCl	HCl (1.1 equiv) were dissolved in 2 vol	DSC, TGA, 1H NMR and XRPD were
	of ethanol at 80° C. The clear red	performed (FIGs. 179-182, 189-197, 270, 274,
	solution was left to cool down to ambi-	280, and 286)
	ent (solid was observed) before storing
	at sub-ambient for ca 18 h. The contents
	of the vial were filtered over a sintered
	funnel and was dried under vacuum and
	nitrogen flow for ca 3 h. The filter cake
	(0.96 g) was transferred in a tray and
	was submitted in an oven to dry under
	vacuum at 40° C. for ca 18 h.
Compound	1.1 equiv. of maleic acid. compound	No solid was observed; therefore, the vial was
1 Maleate	1 free base and maleic acid were	transferred to the freezer for ca 96 h.
	dissolved in 2 vol of ethanol at 80° C.	Light yellow solid was observed after storing in
	The clear yellow solution was left to	the freezer for ca 96 h.
	cool down to ambient (solid was	1.32 g of compound 1 maleate were collected
	observed) before storing at sub-ambient	(88% th yield)
	for ca 18 h.
Compound	1.1 equiv. of benzoic acid. compound 1	No solid was observed; therefore, the vial was
1•Benzoate	free base and benzoic acid were	transferred to the freezer for ca 96 h.
	dissolved in 2 vol of ethanol at 80° C.	No solid observed after storing in the freezer for
	The clear yellow solution was left to	ca. 96 h.
	cool down to ambient (solid was	Hence, the solution was concentrated to one
	observed) before storing at sub-ambient	half the original volume, and was then stored in
	for ca 18 h.	a freezer for +5 days, prior to isolating by
		filtration and drying under steady nitrogen flux
		for ca 48 h.
		KF analysis of compound 1 benzoate showed
		0.43% w/w water content.
		1.5 g of compound 1 Benzoate were collected
		(98% yield)

Comparison of melting point onset and melt enthalpies is exhibited in Table 89. Discrepancies in m.p. were evident on the scaled-up samples. Some of the variability in fusion temperature is most likely attributed to particle non-homogeneity, poor crystallinity, and physical packing efficiency in the sample crucible; sample impurity burden may well have contributed.

A DSC specimen of compound 1⋅Maleate was examined because probable decomposition appeared to occur well after melting, the DSC was programmed as follows: 20° to 170° to 20° to 300° C. The aim was to melt, crystallise and re-melt and assess the new onset temperature.

Both thermocycles showed a small melt at 40-65° C. This event was not repeated in the second thermocycle, indicating that event was irreversible and hence most likely attributed to loss of volatiles.

Both thermocycles had a consistent melt at 146° C., indicating that despite the slow cool the phase did not recrystallize after melting.

TABLE 89
Comparison between batches
			DSC (m.p. onset and
Counter ion	pka 1	pKa 2	enthalpy data)
Hydrochloric acid	−6.00	N/A	204.1° C. (−80.89 Jg{circumflex over ( )}-1)
			205.8° C. (−99.72 Jg{circumflex over ( )}-1)
Maleic acid	1.90	6.20	144.0° C. (−44.63 Jg{circumflex over ( )}-1)
			138.9° C. (−79.17 Jg{circumflex over ( )}-1)
Benzoic acid	4.20	N/A	100.06° C. (−55.31 Jg{circumflex over ( )}-1)
			97.8° C. (−82.93 Jg{circumflex over ( )}-1)

Scale Up of Compound 1 HCl Salt to 5 g

The salification was performed via heat-up cool-down crystallization of compound 1⋅Native with aq. hydrochloric acid (35% v/v) from ethanol and afforded light pink crystals, (5.2 g, 88% th.) The product was analysed by XRPD, ¹H NMR, TGA, DSC, HPLC, and PLM.

In summary, the scale-up of compound 1 HCl, performed as expected (refer to overlays with reference compound 1 HCl depicted in FIGS. 179-182.

Physicochemical Evaluation

An informal physicochemical evaluation of the nominated salts was performed to enable selection of the preferred salt form. Once the salt is selected, physicochemical properties are further evaluated as part of the DS activities.

Equilibrium Humidity Evaluation (40° C./75% RH for 10 Days)

At 40° C./75% RH the phases of the salt forms remained the same throughout. The purity profiles of compound 1 ⋅HCl and compound 1⋅Benzoate were little changed at the 10-day stability time point.

TABLE 10
Summary of salts inputs
              Input
Salt          (mg)
Fumarate salt 100.2
HCl salt      100.7
Maleate salt  100.3
Benzoate salt 100.1

The color of each salt became more vivid after 5 and 10 days.

Compound 1 Fumarate and compound 1 Maleate showed a reduction in CP over the 10 day period.

TABLE 91
Stability of Compound 1 · Fumarate Form A at 40° C./75% RH for 10 days
	Area (mAu*)
	for reference	11.56	12.18	12.43	13.42	13.79	14.04	14.29	14.54	14.66
Comments	RRT = 1.00	0.93	0.98	1.00	1.08	1.11	1.13	1.15	1.17	1.18
Fumarate salt	9682.01	0.36		98.38		0.79		0.27	0.13
t = 5 d at 75%	24968.48	0.64	0.05	96.82	0.05	1.06		0.60	0.02	0.27
RH at 40° C.
t = 10 d at 75%	24658.94	0.61	0.07	97.08	0.04	0.96	0.05	0.52		0.09
RH at 40° C.
		14.79	14.91	15.78	15.90	16.65	17.27	17.77	18.02	18.27
	Comments	1.19	1.20	1.27	1.28	1.34	1.39	1.43	1.45	1.47
	Fumarate salt	0.08
	t = 5 d at 75%		0.20	0.05	0.03		0.10	0.06		0.06
	RH at 40° C.
	t = 10 d at 75%	0.12	0.15	0.03	0.05	0.04	0.08	0.04	0.03	0.05
	RH at 40° C.

TABLE 92
Stability of Compound 1 · HCl at 40° C./75% RH for 10 days
	Area (mAu*)
	for reference	11.78	12.41	12.54	12.66	15.20	15.45	15.96	16.21	16.46	16.72	17.10
Comments	RRT = 1.00	0.93	0.98	0.99	1.00	1.20	1.22	1.26	1.28	1.30	1.32	1.35
HCl salt	15871.84	0.01	0.02	0.01	99.60	0.01	0.11	0.16		0.03	0.01	0.04
t = 5 d at 75%	25920.54	0.05	0.02		99.42	0.02	0.42	0.02	0.02			0.04
RH at 40° C.
t = 10 d at 75%	21464.89	0.05	0.01		99.60		0.31					0.02
RH at 40° C.

TABLE 93
Stability of Compound 1 · Maleate at 40° C./75% RH for 10 days
	Area (mAu*)
	for reference	10.79	11.94	12.59	12.84	14.13	14.51	15.03
Comments	RRT = 1.00	0.84	0.93	0.98	1.00	1.10	1.13	1.17
Maleate salt	11734.37		0.03	0.06	99.22	0.28	0.14	0.02
t = 5 d at 75%	19221.84	0.31	0.05	0.03	99.09		0.21
RH at 40° C.
t = 10 d at 75%	25936.47	0.65	0.06	0.05	98.30		0.33
RH at 40° C.
	15.15	15.28	15.67	16.05	16.18	16.44	16.95	17.21
Comments	1.18	1.19	1.22	1.25	1.26	1.28	1.32	1.34
Maleate salt	0.03	0.08		0.03				0.11
t = 5 d at 75%		0.10						0.22
RH at 40° C.
t = 10 d at 75%		0.09	0.09	0.02	0.06	0.05	0.10	0.19
RH at 40° C.

TABLE 94
Stability of Compound 1 · Benzoate at 40° C./75% RH for 10 days
	Area (mAu*)
	for reference	12.60	12.86	13.89	14.02	14.92	15.30	15.43	15.95	16.20	17.36
Comments	RRT = 1.00	0.98	1.00	1.08	1.09	1.16	1.19	1.20	1.24	1.26	1.35
Benzoate salt	7191.18		99.64		0.03	0.03	0.10	0.02	0.06	0.01	0.10
t = 5 d at 75%	29686.77	0.04	99.64			0.03	0.10	0.02		0.05	0.11
RH at 40° C.
t = 10 d at 75%	24202.54	0.04	99.52	0.05		0.04	0.13	0.02		0.07	0.12
RH at 40° C.

Solubility Determinations in SFI Buffers

The solubility of the salts below was determined in FaSSIF, FeSSIF and FaSSGF by reference to the calibration curve of amorphous compound 1.

Upon pH adjustment from 4.17 to 1.63, solid was observed in compound 1 benzoate (FIG. 184). At t=24 h, the dry pellet was analysed by ¹H NMR to determine whether disproportionation occurred.

Compound 1 Fumarate, HCl and Maleate salts were freely soluble in SIF buffers at the concentration tested (30 mg/ml) (FIG. 298).

Compound 1 Benzoate disproportionated in FaSSGF; ¹H NMR analyses was performed on the isolated residue and confirmed disproportionation by the presence of non-ionised benzoic acid.

TABLE 95
Summary of conditions
Input				Buffer
Masses				Charge
(mg)	Input details	MW	Buffer	(mL)
150.8	Compound	348.40	FaSSIF	5
	1•Fumarate		(pH6.5)
150.5	Compound	268.79	FaSSIF	5
	1•HCl		(pH6.5)
150.3	Compound	348.40	FaSSIF	5
	1•Maleate		(pH6.5)
150.8	Compound	354.45	FaSSIF	5
	1•Benzoate		(pH6.5)
150.3	Compound	348.40	FeSSIF	5
	1•Fumarate		(pH5.0)
150.3	Compound	268.79	FeSSIF	5
	1•HCl		(pH5.0)
150.6	Compound	348.40	FeSSIF	5
	1•Maleate		(pH5.0)
150.1	Compound	354.45	FeSSIF	5
	1•Benzoate		(pH5.0)
150.5	Compound	348.40	FaSSGF	5
	1•Fumarate		(pH1.6)
150.0	Compound	268.79	FaSSGF	5
	1•HCl		(pH1.6)
150.4	Compound	348.40	FaSSGF	5
	1•Maleate		(pH1.6)
150.3	Compound	354.45	FaSSGF	5
	1•Benzoate		(pH1.6)

TABLE 96
Trended HPLC data
		RT
		11.45	11.70	12.34	12.72	13.61	13.86	14.88
RRT-HPLC	Area	RRT
analysis	(mAu*)	0.90	0.92	0.97	1.00	1.07	1.09	1.17
(MET/CR/0000)	for reference	Id
Comments	RRT = 1.00	Compound 1
Compound	7191.18				99.64		0.03	0.03
1 · Benzoate
t = 1 h in FaSSGF	14502.42	0.07	0.05		99.28	0.04	0.06	0.04
t = 3 h in FaSSGF	5999.76			0.04	99.62	0.03		0.15
t = 6 h in FaSSGF	5818.12				99.61			0.12
t = 24 h in FaSSGF	5782.24				99.73			0.15
	RT
	15.01	15.13	15.77	15.90	16.15	16.28	16.79	16.91
RRT-HPLC	RRT
analysis	1.18	1.19	1.24	1.25	1.27	1.28	1.32	1.33
(MET/CR/0000)	Id
Comments	Compound 1
Compound	0.10	0.02	0.06			0.01		0.10
1 · Benzoate
t = 1 h in FaSSGF		0.15			0.11	0.05		0.15
t = 3 h in FaSSGF								0.16
t = 6 h in FaSSGF			0.08	0.04			0.06	0.09
t = 24 h in FaSSGF							0.07	0.06

TABLE 97
Summary of SFI buffer experiment results
		Weights	t = 1 h @ 37° C.	t = 3 h @ 37° C.
SIF		input	Solubility	XRPD	XRPD		Solubility	XRPD	XRPD
Buffer	Input	(mg)	(mg/ml)	(wet)	(dried)	pH	(mg/ml)	(wet)	(dried)
FaSSIF	Compound	150.8	Solution,	N/A	N/A	6.60	Solution,	N/A	N/A
(ph 6.5)	1 · Fumarate		>30 mg/ml				>30 mg/ml
FaSSIF	Compound	150.5	Solution,	N/A	N/A	6.47	Solution,	N/A	N/A
(ph 6.5)	1 · HCl		>30 mg/ml				>30 mg/ml
FaSSIF	Compound	150.2	Solution,	N/A	N/A	6.47	Solution,	N/A	N/A
(ph 6.5)	1 · Maleate		>30 mg/ml				>30 mg/ml
FaSSIF	Compound	150.3	Solution,	N/A	N/A	6.55	Solution,	N/A	N/A
(ph 6.5)	1 · Benzoate		>30 mg/ml				>30 mg/ml
FeSSIF	Compound	150.8	Solution,	N/A	N/A	5.00	Solution,	N/A	N/A
(ph 5.0)	1 · Fumarate		>30 mg/ml				>30 mg/ml
FeSSIF	Compound	150.3	Solution,	N/A	N/A	4.98	Solution,	N/A	N/A
(ph 5.0)	1 · HCl		>30 mg/ml				>30 mg/ml
FaSSIF	Compound	150.6	Solution,	N/A	N/A	4.98	Solution,	N/A	N/A
(ph 5.0)	1 · Maleate		>30 mg/ml				>30 mg/ml
FeSSIF	Compound	150.1	Solution,	N/A	N/A	4.99	Solution,	N/A	N/A
(ph 5.0)	1 · Benzoate		>30 mg/ml				>30 mg/ml
FaSSGF	Compound	150.5	Solution,	N/A	N/A	1.54	Solution,	N/A	N/A
(ph 1.6)	1 · Fumarate		>30 mg/ml				>30 mg/ml
FaSSGF	Compound	150.0	Solution,	N/A	N/A	1.50	Solution,	N/A	N/A
(ph 1.6)	1 · HCl		>30 mg/ml				>30 mg/ml
FaSSGF	Compound	150.4	Solution,	N/A	N/A	1.54	Solution,	N/A	N/A
(ph 1.6)	1 · Maleate		>30 mg/ml				>30 mg/ml
FaSSGF	Compound	150.3	28.74	Benzoic	Benzoic	1.51	26.85	Benzoic	Benzoic
(ph 1.6)	1 · Benzoate			acid	acid			acid	acid
		t = 6 h @ 37° C.	t = 24 h @ 37° C.
SIF	t = 3 h @ 37° C.	Solubilty	XRPD	XRPD		Solubility	XRPD	XRPD
Buffer	pH	(mg/ml)	(wet)	(dried)	pH	(mg/ml)	(wet)	(dried)	pH
FaSSIF	6.40	Solution,	N/A	N/A	6.53	Solution,	N/A	N/A	6.52
(ph 6.5)		>30 mg/ml				>30 mg/ml
FaSSIF	6.50	Solution,	N/A	N/A	6.52	Solution,	N/A	N/A	6.50
(ph 6.5)		>30 mg/ml				>30 mg/ml
FaSSIF	6.48	Solution,	N/A	N/A	6.47	Solution,	N/A	N/A	6.47
(ph 6.5)		>30 mg/ml				>30 mg/ml
FaSSIF	6.57	Solution,	N/A	N/A	6.50	Solution,	N/A	N/A	6.47
(ph 6.5)		>30 mg/ml				>30 mg/ml
FeSSIF	5.02	Solution,	N/A	N/A	5.02	Solution,	N/A	N/A	5.02
(ph 5.0)		>30 mg/ml				>30 mg/ml
FeSSIF	4.99	Solution,	N/A	N/A	4.99	Solution,	N/A	N/A	4.98
(ph 5.0)		>30 mg/ml				>30 mg/ml
FaSSIF	4.98	Solution,	N/A	N/A	4.98	Solution,	N/A	N/A	4.95
(ph 5.0)		>30 mg/ml				>30 mg/ml
FeSSIF	4.99	Solution,	N/A	N/A	4.99	Solution,	N/A	N/A	4.98
(ph 5.0)		>30 mg/ml				>30 mg/ml
FaSSGF	1.56	Solution,	N/A	N/A	1.57	Solution,	N/A	N/A	1.55
(ph 1.6)		>30 mg/ml				>30 mg/ml
FaSSGF	1.63	Solution,	N/A	N/A	1.60	Solution,	N/A	N/A	1.62
(ph 1.6)		>30 mg/ml				>30 mg/ml
FaSSGF	1.60	Solution,	N/A	N/A	1.59	Solution,	N/A	N/A	1.63
(ph 1.6)		>30 mg/ml				>30 mg/ml
FaSSGF	1.70	26.33	Benzoic	Benzoic	1.60	25.59	Benzoic	Benzoic	1.60
(ph 1.6)			acid	acid			acid	acid

Dynamic Vapor Sorption (DVS)

Specimens were equilibrated at 0% RH for 60 min, prior to DVS analyses (stepped increment %

RH up to 90% RH and stepped decrement % RH down to 0% RH.

DVS isotherms ranged from slightly hygroscopic (compound 1⋅HCl) to deliquescent (compound 1⋅Fumarate).

Fumarate DVS Results

Compound 1⋅Fumarate, deliquescent type isotherm, gained ca. 1% w/w at 70°RH after which, pronounced mono, multilayer sorption and probable deliquescence occurred >80°% RH

HCl DVS Results

Compound 1⋅HCl, up to ca. 0.2% w/w at 70°RH (slightly hygroscopic isotherm) mono and multilayer sorption >80% RH up to ca. 0.5% w/w; exhibited small water affinity hysteresis.

Compound 1⋅HCl was the best of the four salts.

Maleate DVS Results Compound 1⋅Maleate, hygroscopic, isotherm uptake ca. 3.5% w/w, small hysteresis, during desorption

Benzoate DVS Results

Compound 1⋅Benzoate, hygroscopic isotherm up to ca. 0.6% w/w at 70°RH (hygroscopic); desorption profile was unusual and ended beneath unity.

Conclusions

Compound 1 HCl (crystalline, Class 1) was nominated for polymorph screening as Compound 1⋅HCl exhibited high crystallographic quality.

Compound 1 HCl was freely soluble in SIF buffers at the concentration tested (30 mg/ml). Focusing on its performance in the advanced physicochemical screening, Compound 1 HCl showed no reduction in CP (99.60% area over 10 days) and displayed excellent characteristics related to dynamic vapor sorption, up to ca. 0.2% w/w at 70°RH (slightly hygroscopic isotherm) mono and multilayer sorption >80% RH up to ca. 0.5% w.w; exhibited small water affinity hysteresis.

Experimental Information

Instrumentation

DSC

A Mettler Toledo DSC 3 instrument was used for the thermal analysis operating with STARe™ software. The analysis was conducted in open aluminium pans (40 μl), under nitrogen and sample sizes ranged from 1 to 10 mg. Typical analysis method was 20 to 250° C. at 10° C./minute.

Alternatively, a Mettler Toledo DSC 1 with auto-sampler instrument was used for the thermal analysis operating with STARe™ software. The analysis was conducted in open aluminium pans (40 μl), under nitrogen and sample sizes ranged from 1 to 10 mg. Typical analysis method was 25 to 300° C. at 10° C./minute.

DVS

The moisture sorption properties of the feed API were analysed by DVS Intrinsic instrument (Surface Measurement System). Approximately 20 to 50 mg of API was weighed onto an aluminium pan and loaded into the instrument equilibrated at 25° C. The sample was equilibrated under a dry atmosphere (0% relative humidity) for 60 minutes, before increasing the humidity from 0% to 30% at 5% step increment and from 30% to 90% at 10% step increment. A desorption cycle was also applied from 90% to 30% (10% step decrement) and from 30% to 0% (5% step decrement). A rate of change in mass per time unit (dm/dt) of 0.002%/min was set as the equilibrium parameter. Kinetic and isotherm graphs were calculated.

LC-MS

Routine Liquid Chromatography-Mass Spectrometry (LC-MS) data were collected using the Agilent 1260 Infinity II interfaced with 1260 Infinity II DAD HS and Agilent series 1260 Infinity II binary pump.

The instrument used a single quadrupole InfinityLab MSD. The instrument was calibrated up to 2000 Da.

LC-MS Method Parameters:

• • Inj. vol: 5 μl
  • Detection: UV @ 254 nm
  • Mobile Phase A: Acetonitrile+0.1% TFA/H₂O 95:5
  • Mobile Phase B: Acetonitrile+0.05% TFA/H₂O 5:95

TABLE 98
LC-MS method parameters
Time (mins)	% A	% B
0.0	100	0
1	100	0
10.00	0	100
10.01	100	0
12.00	100	0

• • Flow Rate: 1 ml/min
  • Column temperature: 30° C.
  • Run time 12 minutes.

FT-IR

FT-IR Spectra were acquired using a PerkinElmer Frontier FT-IR spectrometer. Samples were analysed directly using a universal ATR attachment in the mid and far frequency ranges; 4000 to 30 cm⁻¹. Spectra were processed using Spectrum software. Standard KBr windows are used for mid-IR applications; polyethylene and polyethylene/diamond windows are used for operation in the far-IR. Further capabilities of the instrument include a liquid flow cell with ZnSe windows used for rapid monitoring of reactions. This couples with time-based software which allows time-resolved measurements to be taken.

¹H-NMR

¹H NMR spectra were acquired using a Bruker 400 MHz spectrometer and data was processed using Topspin. Samples were prepared in DMSO-d₆ at typical concentrations of 10 to 20 mg/ml and up to 50 mg/ml for ¹H NMR w/w assay and calibrated to the corresponding non-deuterated solvent residual at 2.50 ppm.

¹H-NMR Assay

Assays (w/w) of API by ¹H NMR spectroscopy were measured by the project chemist using Topspin. Internal standard 2,3,5,6-terachloronitrobenzene (TCNB, ca. 20 mg, F. W. 260.89) were dissolved in DMSO-d₆ (2.0 ml) and the ¹H NMR spectrum was acquired using an extended relaxation method.

TGA

A Mettler Toledo TGA-2 instrument was used to measure the weight loss as a function of temperature from 25 to 500° C. The scan rate was typically 5 or 10° C. per minute. Experiments and analysis were carried out using the STARe™ software. The analysis was conducted in 100 μl open aluminum pans, under nitrogen and sample sizes ranged from 1 to 10 mg.

XRPD

X-ray powder diffraction (XRPD) analysis was carried out using a Bruker D2 Phaser powder diffractometer equipped with a LynxEye detector. The specimens underwent minimum preparation but, if necessary, were lightly milled in a pestle and mortar before acquisition. The specimens were located at the centre of a silicon sample holder within a 5 mm pocket (ca. 5 to 10 mg). The samples were continuously spun during data collection and scanned using a step size of 0.02° 2-theta (20) between the range of 4° to 40° 2-theta or 5° to 60° 2-theta. Data were acquired using either 3 minute or 10-minute acquisition methods. Bruker Diffrac. Suite was used to process the data

HPLC (MET/CFI/2616)

HPLC data was acquired using an Agilent HPLC instrument. Samples were diluted to 1 mg/mL concentration in H₂O/MeCN (1/1, v/v).

Method Parameters:

• • Column: Halo C18, 150×4.6 mm, 2.7 m
  • Inj. volume: 5 L
  • Detection: UV @ 212 nm
  • Mobile Phase A: 0.1% TFA in water/acetonitrile 95/S v/v
  • Mobile Phase B: 0.05% TFA in water/acetonitrile 5/95 v/v

TABLE 99
HPLC Parameters
Time	% A	% B
0.0	100	0
2.0	100	0
25.0	50	50
30.0	0	100
32.0	0	100
32.1	100	0
37.0	100	0

• • Flow rate: 1 mL/min
  • Column temperature: 30° C.
  • Run time: 37 minutes
  • Integration time: 32 minutes
  • Wash vial or syringe wash: Sample diluent

General Procedures

Heat-Up Cool-Down Crystallization Salt Screen Procedure

Compound 1 free base (1.0 equiv.) and the corresponding acid (1.1 equiv) were dissolved in 2.0 vol of ethanol at 80° C. The solution was left to cool down to ambient before storing at sub-ambient for ca 18 h. The products were isolated by centrifugation and was oven-dried under reduced pressure over 20 h at 40° C.

Scale Up of Nominated Salts Procedure

Compound 1 free base (1.0 equiv.) and the corresponding acid (1.1 equiv) were dissolved in 2.0 vol of ethanol at 80° C. The solutions were left to cool down to ambient before storing at sub-ambient for ca 18 h. The contents of the vial were filtered over a sintered funnel and was dried under vacuum and nitrogen flow for ca 48 h. The outputs were characterised by DSC, TGA, ¹H NMR and XRPD.

Scale Up of Compound 1 HCl Salt to 5 g Procedure

Amorphous compound 1(5.0 g, 1.0 wt) and HCl (2.2 ml, 35°% aq., 1.1 eq.) were dissolved in ethanol (2.0 vol) at 80° C., the reddish solution was left to cool to 20° C. (solid was observed) and the suspension was further cooled to sub-ambient temperature (ca. 5° C.) and maintained under these conditions for ca. 6 days. The product was isolated by suction filtration, pulled free of surplus solvents, and dried under sustained nitrogen flux for ca. 3 h; the filter cake (5.16 g) was off-loaded, frayed-up and dried under reduced pressure at 40° C. for ca. 18 h. The product was crystalline compound 1 HCl (FIG. 182) (5.16 g, 88% uncorr.).

Equilibrium Humidity Stability

100 mg portions of compound 1 salts (for inputs see table below) were placed in the relevant open vials. The powders were finely divided and distributed evenly over the base of the vial, such that equal material coverage across the panel was observed. These samples were then maintained 40° C. under 75% RH. The samples were sub-sampled at intervals of 5 and 10 days and analysed by by ¹H NMR, HPLC, XRPD, DSC, TGA and PLM, for evidence of phase change or chemical degradation (FIG. 269-297).

TABLE 100
Summary of Salts
Experimental         Input
reference            (mg)
Crystalline compound 100.2
1 fumarate form A
Crystalline compound 100.7
1 HCl salt
Crystalline compound 100.3
1 maleate salt
Crystalline compound 100.1
1 benzoate salt

Calibration curve of non-ionized Compound 1 in acetonitrile/water (1/1 v/v) Separate portions of compound 1 were weighed out into aluminum boats and were charged to the relevant volumetric flasks. Solutions were made to volume with 1 to 1 (v/v) acetonitrile/purified water to give calibrants of known API concentrations and analyzed by HPLC, suitable to determine the concentration of compound 1 free base in the SIF buffer solubility study.

Signal areas of the calibrants were plotted against concentration to generate the corresponding calibration curve with slope 27622 and R² 0.9917. At the calculated concentrations the measured value exhibited positive agreement with the predicted value.

Solubility Determinations in SIF Buffers Procedure

Each sample (150 mg) was suspended in the relevant SIF buffer (5.0 ml), to give a concentration of 30 mg/ml and maintain at 37° C. for 24 h. The pH was adjusted using 1 M HCl or 1 M NaOH, to ensure that the suspension remains in range.

Sample (1 ml) of the well-stirred representative suspensions was obtained at 1 h, 3 h, 6 h and 24 h and the pH was recorded. The pH of the bulk suspension was re-adjusted when necessary. The obtained sample from each vial was centrifuged, and the supernatant was analysed by HPLC (note, the analyte was diluted, when outside of the calibration range); XRPD analysis was performed on the wet sample pellet for evidence of form change, as well as on the oven-dried pellet (under vacuum at 40° C.).

Example 10. Salt Screen

(R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dim ethyl propan-2-amine is characterized to evaluate its physical properties. The evaluation is performed by X-ray powder diffraction (XRPD), polarized light microscopy (PLM), differential scanning calorimetry (DSC), thermogravimetry (TG), dynamic vapor sorption/desorption (DVS), and/or solubility testing in organic solvents, water, and mixed solvent systems. XRPD data are used to assess crystallinity. PLM data are used to evaluate crystallinity and particle size/morphology. DSC data are used to evaluate melting point, thermal stability, and crystalline form conversion. TG data are used to evaluate if the free base is a solvate or hydrate, and to evaluate thermal stability. DVS data are used to evaluate hygroscopicity of the free base and if hydrates can be formed at high relative humidity. About 10 to 15 solvents are selected from the list below, based on their properties (polarity, dielectric constant and dipole moment).

TABLE 101
Solvents
acetic acid                      n-heptane
Acetone                          n-hexane
Acetonitrile                     1,1,1,3,3,3-hexafluoro-2-propanol
benzyl alcohol                   isobutanol (2-methyl-1-propanol)
1-butanol                        isopentanol (3-methyl-1-butanol)
2-butanol                        isopropyl alcohol (2-propanol)
butyl acetate                    isopropylbenzene (cumene
t-butyl methyl ether             Methanol
Chlorobenzene                    methoxybenzene (anisole)
Chloroform                       methyl acetate
di(ethylene glycol)              methyl ethyl ketone (2-butanone)
Dichloromethane                  methyl isobutyl ketone
diethyl ether                    Nitromethane
Diethylamine                     N-methyl-2-pyrrolidone (NMP)
Dimethylacetamide (DMA)          1-octanol
diisopropyl ether                1-pentanol
N,N-dimethyl-formamide (DMF)     1-propanol
dimethyl sulfoxide               Perfluorohexane
1,4-dioxane                      propyl acetate
1,2-ethanediol (ethylene glycol) 1,1,2,2-tetrachloroethane
Ethanol                          Tetrahydrofuran
Ethanolamine                     Toluene
2-ethoxyethanol (Cellusolve)     1,1,1-trichloroethane
ethyl acetate                    2,2,2-trifluoroethanol
ethyl formate                    Water
formic acid                      o-xylene (1,2-dimethylbenzene)
Glycerol                         p-xylene (1,4-dimethylbenzene)

The information obtained is used for designing the subsequent salt screen. The salt screen is performed by reacting the free base with pharmaceutically acceptable acids under various conditions in attempts to generate crystalline salts. Pharmaceutically acceptable acids that may be used are listed below. Specific acids are selected based on the pKa of the free base, and typically 15 to 20 acids are selected. Experiments are performed using 0.5 molar equivalent, 1 molar equivalent and/or 2 molar equivalents of the acid.

TABLE 102
Exemplary Acids
naphthalene-1,5-disulfonic acid citric acid
sulfuric acid                   d-glucuronic acid
ethane-1,2-disulfonic acid      lactobionic acid
p-toluenesulfonic acid          D-glucoheptonic acid
thiocyanic acid                 (−)-L-pyroglutamic acid
methanesulfonic acid            L-malic acid
dodecylsulfuric acid            hippuric acid
naphthalene-2-sulfonic acid     D-gluconic acid
benzenesulfonic acid            D,L-lactic acid
oxalic acid                     oleic acid
glycerophosphoric acid          succinic acid
ethanesulfonic acid, 2-hydroxy  glutaric acid
L-aspartic acid                 cinnamic acid
maleic acid                     adipic acid
phosphoric acid                 sebacic acid
ethanesulfonic acid             (+)-camphoric acid
glutamic acid                   acetic acid
pamoic (embonic) acid           nicotinic acid
glutaric acid, 2-oxo-           isobutyric acid
2-naphthoic acid, 1-hydroxy     propionic acid
malonic acid                    lauric acid
gentisic acid                   stearic acid
L-tartaric acid                 orotic acid
fumaric acid                    carbonic acid
galactaric (mucic) acid

Solvent systems for the salt crystallization experiments are selected based on the solubility of the free base and the selected acid. Solvents are used as a single solvent or as solvent mixtures, some containing water. The techniques that are used for salt crystallization are chosen based on the solvent selected and properties of the free base. The following techniques (or combination of techniques) may be used for salt crystallization:

• • Free base and acid are dissolved in a solvent or mixture of solvents, and the solvents are evaporated at different rates (slow evaporation or fast evaporation) and at different temperatures (ambient or elevated).
  • Free base and acid are dissolved in a solvent or mixture of solvents (at ambient temperature or an elevated temperature), and the final solution is cooled to a sub-ambient temperature (between −78° C. to 15° C.). The cooling method can be a fast cooling (by plunging the sample into an ice bath or a dry ice/acetone bath), or slow cooling. The solids formed will be recovered by filtration and dried (air dried or vacuum dried).
  • Free base and acid are dissolved in a solvent or mixture of solvents, and an antisolvent is added to precipitate the salt. The solids formed will be recovered by filtration and dried (air dried or vacuum dried).
  • Free base and acid are added to a solvent or mixture of solvents, where one or both components are not fully dissolved. The slurry is agitated at different temperatures for a number of days. The solids formed will be recovered by filtration and dried (air dried or vacuum dried). The same experiment is also performed in solvent systems where the solvents are not miscible.
  • Free base and acid are milled together (by mechanical milling or by mortar and pestle), with a drop of solvent, or without any solvent.
  • Free base and acid were melted together and cooled to various temperatures using various cooling rates.
  • If an amorphous form of a salt was obtained, the amorphous salt was exposed to elevated humidity, or elevated temperature (or combination of both), or solvent vapors at various temperatures to form crystalline salts.
  • The stoichiometric ratio of acid to amine, (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine, is confirmed by ¹H NMR, HPLC, or both as is known to those of ordinary skill in the art.
  • The salts obtained are analyzed by XRPD to determine if they are crystalline and, if so, by DSC to see the melting point and by TG to see if they are hydrated/solvated, and by 1H NMR spectroscopy to ensure chemical integrity. KF water titration is performed on salts that are hydrated. DVS analysis is performed to evaluate hygroscopicity of the salt and if hydrated form is present.
  • Consistent with the methods above, the (R)-1-(5-methoxy-1H-indol-1-yl) N,N-dimethylpropan-2-amine salts listed in Table 103 were prepared and characterized. The symbol “—” means that data were not collected for that entry.

TABLE 103
				1H NMR
				Consistent
		Stoichiometry	Melting	with
Salt	XRPD	API to salt	Point	Structure?
HCl	FIG. 167	—	204° C.	Yes
Maleate	FIG. 168	1.0 to 1.0	144° C.	Yes
Benzoate	FIG. 169	1.0 to 1.0	100° C	Yes
Tosylate	FIG. 170	1.0 to 1.0	127° C.	Yes
Tartrate	FIG. 171	1.0 to 1.0	107° C.	Yes
HBr	FIG. 172	—	Bimodal	Yes
			115° C.
			and
			186° C.
Galactarate	FIG. 173	1.0 to 1.0	163° C.	Yes
Succinate	FIG. 174	1.0 to 1.7	81° C. and	Yes
			205° C.
Sulfate	—	—	157° C.	—
Ethane	—	—	—	—
sulfonate
(esylate)
Methane	—	—	—	—
sulfonate
(mesylate)
Phosphate	—	—	—	—
Citrate	—	—	181-184° C.	—
Glucuronate	—	—	143° C.	—
Malate	—	—	193° C.	—
Gluconate	—	—	—	—
Ascorbate	—	—	188-192° C.	—
Edisylate	—	—	—	—
Adipate	—	—	—	—

Example 11: Polymorph Evaluation

The active pharmaceutical ingredient (API), (R)-1-(5-methoxy-1H-indol-1-yl) N,N-dimethylpropan-2-amine, which may be a free base or a salt, is characterized to evaluate its physical properties. The evaluation is performed by X-ray powder diffraction (XRPD), polarized light microscopy (PLM), differential scanning calorimetry (DSC), thermogravimetry (TG), dynamic vapor sorption/desorption (DVS), and/or solubility testing in organic solvents, water, and mixed solvent systems. XRPD data are used to assess crystallinity. PLM data are used to evaluate crystallinity and particle size/morphology. DSC data are used to evaluate melting point, thermal stability, and crystalline form conversion. TG data are used to evaluate if the API is a solvate or hydrate, and to evaluate thermal stability. DVS data are used to evaluate hygroscopicity of the API and if hydrates can be formed at high relative humidity. About 10 to 15 solvents may be selected from the list below, based on their properties (polarity, dielectric constant and dipole moment).

TABLE 104
Solvents
acetic acid                      n-heptane
acetone                          n-hexane
acetonitrile                     1,1,1,3,3,3-hexafluoro-2-propanol
benzyl alcohol                   isobutanol (2-methyl-1-propanol)
1-butanol                        isopentanol (3-methyl-1-butanol)
2-butanol                        isopropyl alcohol (2-propanol)
butyl acetate                    isopropylbenzene (cumene)
t-butyl methyl ether             methanol
chlorobenzene                    methoxybenzene (anisole)
chloroform                       methyl acetate
di(ethylene glycol)              methyl ethyl ketone (2-butanone)
dichloromethane                  methyl isobutyl ketone
diethyl ether                    nitromethane
diethylamine                     N-methyl-2-pyrrolidone (NMP)
Dimethylacetamide (DMA)          1-octanol
diisopropyl ether                1-pentanol
N,N-dimethyl-formamide (DMF)     1-propanol
dimethyl sulfoxide               perfluorohexane
1,4-dioxane                      propyl acetate
1,2-ethanediol (ethylene glycol) 1,1,2,2-tetrachloroethane
ethanol                          tetrahydrofuran
ethanolamine                     toluene
2-ethoxyethanol (Cellusolve)     1,1,1-trichloroethane
ethyl acetate                    2,2,2-trifluoroethanol
ethyl formate                    water
formic acid                      o-xylene (1,2-dimethylbenzene)
glycerol                         p-xylene (1,4-dimethylbenzene)

The information obtained is used for designing the subsequent polymorph screen. Solvents are used as a single solvent or as solvent mixtures, some containing water. The techniques used for the polymorph screen are chosen based on the solvent selected and properties of the API. The following techniques (or a combination of techniques) may be used for the polymorph screening:

• • API is dissolved in a solvent or mixture of solvents, and the solvents are evaporated at different rates (slow evaporation or fast evaporation) and at different temperatures (ambient or elevated).
  • API is dissolved in a solvent or mixture of solvents (at ambient temperature or an elevated temperature), and the final solution is cooled (between −78° C. to 20° C.). The cooling method can be a fast cooling (by plunging the sample to an ice bath or a dry ice/acetone bath), or slow cooling. The solids formed will be recovered by filtration and dried (air dried or vacuum dried).
  • API is dissolved in a solvent or mixture of solvents, and an antisolvent is added to precipitate the salt. The solids formed will be recovered by filtration and dried (air dried or vacuum dried).
  • API is added to a solvent or mixture of solvents, where the API is not fully dissolved. The slurry will be agitated at different temperatures for a number of days. The solids formed will be recovered by filtration and (air dried or vacuum dried).
  • API is milled (by mechanical milling or by mortar and pestle), with a drop of solvent, or without any solvent.
  • API is melted and cooled (at different cooling rates, fast and slow, and cooled to different temperatures) to obtain solids.
  • API is suspended in a solvent or mixture of solvents, and the slurry is placed in a heating/cooling cycle for multiple cycles. The remaining solids after the final cooling cycle will be filtered and (air dried or vacuum dried).
  • API is processed to obtain an amorphous form (by melting, milling, solvent evaporation, spray drying or lyophilization). The amorphous form will then be exposed to elevated humidity (or elevated temperature, or combination thereof), or to solvent vapors for extended period of days.
  • API is exposed to elevated humidity (or elevated temperature, or combination thereof), or to solvent vapors for extended period of days.
  • Two or more polymorphs of the API are mixed in a solvent or solvent systems (some solvent mixtures containing variable amount of water) to obtain a slurry, and the slurry will be agitated (at various temperatures) for an extended period of time (days). The solvent system used can be pre-saturated with the API. The final solids will be filtered and dried (air dried or vacuum dried).
  • API is heated to a specific temperature and cooled (at ambient conditions or in a dry box).

The solids obtained are analyzed by XRPD to determine if they are crystalline and, if so, by DSC to see the melting point and by TG to see if they are hydrated/solvated, and by ¹H NMR spectroscopy to ensure chemical integrity. KF water titration is performed on forms that are hydrated. DVS analysis is performed to evaluate hygroscopicity of the form and if hydrated form is present. In particular variable temperature analyses, including variable temperature XRPD, are performed to assess the stability of each physical form as well as its crystallinity.

Differential scanning calorimetry (DSC) thermograms are obtained using a DSC Q 100 (TA Instruments, New Castle, DE). The temperature axis and cell constant of the DSC cell are calibrated with indium (10 mg, 99.9% pure, melting point 156.6° C., heat of fusion 28.4 J/g). Samples (2.0-5.0 mg) are weighed in aluminum pans on an analytical balance. Aluminum pans without lids are used for the analysis. The samples are equilibrated at 25° C. and heated to 250-300° C. at a heating rate of 10° C./min under continuous nitrogen flow. TG analysis of the samples is performed with a Q 50(TA Instruments, New Castle, DE). Samples (2.0-5.0 mg) are analyzed in open aluminum pans under a nitrogen flow (50 mL/min) at 25° C. to 210° C. with a heating rate of 10° C./min.

The sample for moisture analysis is allowed to dry at 25° C. for up to 4 hours under a stream of dry nitrogen. The relative humidity is then increased stepwise from 10 to 90% relative humidity (adsorption scan) allowing the sample to equilibrate for a maximum of four hours before weighing and moving on to the next step. The desorption scan is measured from 85 to 0% relative humidity with the same equilibration time. The sample is then dried under a stream of dry nitrogen at 80° C. for 2 hours or until no weight loss is observed.

X-ray powder diffraction data are collected using a Miniflex Tabletop XRD system (Rigaku/MSC, The Woodlands, TX) from 5° to 45° 2θ with steps of 0.1°, and the measuring time is 1.0 second/step. All samples are ground to similar size before exposure to radiation. The powder samples are illuminated using CuKα radiation (λ=1.54056 Å) at 30 kV and 15 mA.

Variable temperature XRPD data are collected using a Huber Imaging Plate Guinier Camera 670 employing Ni-filtered CuKα₁ radiation (A. =1.5405981 Å) produced at 40 kV and 20 mA by a Philips PW1120/00 generator fitted with a Huber long fine-focus tube PW2273/20 and a Huber Guinier Monochromator Series 611/15. The original powder is packed into a Lindemann capillary (Hilgenberg, Germany) with an internal diameter of 1 mm and a wall thickness of 0.01 mm. The sample is heated at an average rate of 5 Kmin⁻¹ using a Huber High Temperature Controller HTC 9634 unit with the capillary rotation device 670.2. The temperature is held constant at selected intervals for 10 min while the sample is exposed to X-rays and multiple scans were recorded. A 20-range of 4.00-100.0° is used with a step size of 0.005° 2θ.

In certain embodiments wherein the solid form is a solvate, such as a hydrate, the DSC thermogram reveals endothermic transitions. In accordance with the observed DSC transitions, TGA analysis indicates stages of weight change corresponding to desolvation or dehydration and/or melting of the sample. In the case of hydrates, these results are in harmony with Karl Fisher titration data which indicate the water content of the sample.

The moisture sorption profile of a sample can be generated to assess the stability of a solid form is stable over a range of relative humidities. In certain embodiments, the change in moisture content over 10.0 to 95.0% relative humidity is small. In other embodiments the change in moisture content over 10.0 to 95.0°A) relative humidity is reversible.

In certain embodiments, the XRPD pattern of a sample of solid form indicates that the sample has a well-defined crystal structure and a high degree of crystallinity.

Example 12: Crystalline Compound 1 HCl Polymorph Screen

List of Abbreviations and Definitions Used in Example 12

• • ϕ_i; Water activity coefficient
  • a_w Water activity
  • ASD Amorphous solid dispersion
  • ca. circa (Latin: approximately)
  • cf Confer/conferatur (Latin: to confer, to compare)
  • ° C. degree Celsius
  • CP Chemical Purity
  • CP-MAS Cross Polarised Magic Angle Spinning (¹³C NMR solid state technique)
  • Da Dalton
  • DSC Differential Scanning Calorimetry (measures changes in heat capacity)
  • DTA Differential Thermal Analyses (measures changes in temperature)
  • DVS Dynamic Vapour Sorption (used interchangeably with GVS)
  • e.g. Exempli gratia (Latin: for example)
  • etc. Et cetera (Latin: ‘and others’ or ‘and so on’)
  • FT-IR Fourier Transformed, InfraRed spectroscopy (prefixed mid and far)
  • g Gram (s)
  • GRAS Generally Recognised As Safe
  • GVS Gravimetric Vapour Sorption
  • h Hour (s)
  • HPLC High Performance Liquid Chromatography
  • HSM Hot Stage Microscopy (thermal microscopy)
  • HUCD Heat-up/cool-down crystallisation
  • i.e. Id Est (Latin: that is)
  • IPC In-Process check
  • IR InfraRed Spectroscopy
  • J Joule
  • Kelvin Kelvin. SI unit of temperature, used interchangeably with ° C. to express increment/decrement of temperature set point (e.g. ramp rate on DSC thermogram 10 K/min); note K sign not prefixed by.
  • KF Karl Fischer (determination of the water content by coulometric titration)
  • kg Kilogram (s)
  • LAG Liquid Assisted Grinding
  • LOD Loss On Drying
  • mag magnification
  • mAu milli-Absorption units (chromatographic unit of peak height)
  • mAu*s milli-Absorption units multiplied by second (chromatographic unit of peak area)
  • MET/CR Aptuit chromatography method reference
  • min Minute (s)
  • mg Milligram (s)
  • ml Millilitre (s)
  • mol mole, amount of substance
  • N/A Not Applicable
  • n.a. not analysed
  • n.d. not detected
  • nm nanometre
  • NMR Nuclear Magnetic Resonance
  • oab on anhydrous basis
  • osfb on solvent free basis
  • oasfb on anhydrous solvent free basis
  • pH −log [H⁻] or pH=−log a_H⁺
  • pK_a −log (Kα), acid dissociation constant
  • pl isoelectric point, quoted in unit pH
  • PLM Polarised Light Microscopy
  • Re1RT Relative Retention Time (not be confused RT)
  • REP/Aptuit report (REP) reference
  • RFA Request For Analysis (unique reference number)
  • RH Relative Humidity (a_w*100)
  • RT Room Temperature (ambient, typically: 18 to 23° C.)
  • s Second (s)
  • SC-XRD Single Crystal X-Ray Determination
  • SW Simulated Intestinal fluid
  • SMPT Solvent mediated phase transition
  • STA Simulated Thermal Analysis (STA=TGA+DTA)
  • t time in seconds, minutes, hour, days etc. (interval specified in parentheses); alias in common use tonne (t)
  • t Tonne, metric unit of mass (1000 kg; 1 Mg), (compaction force in kg, suffixed in parentheses)
  • T Temperature recorded in degrees Celsius (° C.); alias in common use, SI unit of magnetic flux density, also denoted T
  • MTBE Methyl tert-butyl ether
  • TCNB 2,3,5,6-Tetrachloronitrobenzene (C₆HCl₄NO₂, F.W. 260.89 gmol⁻¹)
  • TFE Trifluoroethanol (solvent used for solvent drop grinding)
  • TGA Thermogravimetric Analysis
  • th. theoretical
  • UV Ultra Violet
  • vol. Volume or relative volume
  • vs. versus
  • v/v volume/volume
  • W Watt
  • w/w weight/weight
  • XRPD X-Ray Powder Diffraction
  • Isostructural Crystals are said to be isostructural if they have the same crystal structure but not necessarily the same cell dimensions nor the same chemical composition (Kálmán, A., Párkányi, L. & Argay, G. (1993) Acta Cryst. B49, 1039-1049.)
  • Isomorphic two crystalline solids are isomorphous if both have the same unit-cell dimensions and space group (source, vide supra).
  • Isomorphic Desolvate via solvent release from an isostructural solvate.
  • Native Refers to an API in its native or non-ionised form.
  • Normal light Light oscillating in all directions perpendicular to the axis to which it travels.
  • Particle size Expressed as a volume distribution, the range ×10>PSD<×90 captures the sizes of 80% of the particles.
  • plane polarised light Light passed through a polaroid filter which allows only light oscillating in one plane to be transmitted.
  • Polymorphism Crystalline solid able to exhibit different crystalline phases.
  • Photomicrograph Imaged captured of a small object under magnification through an optical microscope.
  • Pseudopolymorphism Different crystal structure attributed to the incorporation of molecular water or solvent.
  • Solvates Contains a molecule of solvent in the crystal lattice.
  • Thermogram Differential scanning calorimetry trace: heat flow on y-ordinate (mW), time (minutes)/temperature (° C.) on x-ordinate.

Summary

Compound 1⋅HCl polymorph screen was completed:

• • Form A, the stable form is fully characterized by ¹H NMR, Q ¹H NMR, DSC, TGA, DVS, PLM, SC-XRD and SW buffer solubility and stability at 40° C./75°% RH and 20° C./90%).⁵
  • Pattern #1 was the other form observed and was generated from heat-up/cool-down crystallization from acetonitrile/water and reverted to Form A upon drying;
  • Crystals of Pattern #1 were grown and were with the crystallographer at the time of writing this report, DSC analyses were attempted however, the onset coincided with Form A;
  • Full characterization of the scaled-up batch, including Q ¹H NMR, XRPD, TGA, DSC and PLM;
  • Qualitative solubility panel against 22 solvents (selected from Classes 1 and 2 ICH Q3C (R8) Residual solvents) was performed, showing that the API is soluble in polar and aqueous solvents at temperature;
  • Suspension equilibration panels in selected solvents at 20° C. and 40° C. delivered all outputs (wet and dry) as Form A;
  • Heat-up/cool-down crystallisation panel was completed, and XRPD analysis showed that Form A was mainly generated, apart from one hit (see above) that exhibited a metastable form (Pattern #1);
  • Preparation of Pattern #1 was repeated via controlled heat-up/cool-down crystallization from acetonitrile/water. XRPD analysis resembled Pattern #1 and contained Form A as the minor component;

⁵SIF buffer solubility and RH stability is reported in REP/PD/1190

• • The products retrieved from mechanochemical pulverization (LAG) were analyzed by XRPD and the phase of the products was consistent with the input (Form A), i.e., no polymorphic changes were observed under these conditions;
  • Form A was exposed at 20° C./95% RH conditions in both an open-capped and double bagged vials to assess its stability during a 10-day period. TG analyses did not show any water uptake;
  • DVS data of the stable form (Form A) were collected, indicating that the API is slightly hygroscopic, as it held on to a little water at 0% RH, however, the powder pattern of residue after DVS treatment was congruent with Form A;
  • Single crystal structure determination of Form A was successful.

Tables of Characterization

TABLE 119
Crystalline Compound 1 HCl Form A
Crystalline compound 1 HCl Form A
Molecular weight: 268.79 gmol−1
Exact molecular weight: 268.1342
Molecular formula: C14H20N2O•HCl
Unary/mono chloride: 13.6% w/w th., hydrochloride (i.e., 1.0 mol of API
to 1.0 mol of hydrochloride) The simulated powder pattern obtained from
the single crystal structure was in good agreement with Form A,
experimentally observed powder pattern of the bulk phase. Hence Form A
counterion stoichiometry is the unary/mono hydrochloride salt in the
orthorhombic space group P212121
Nature of hydrogen bonding: Intermolecular interactions in the form of
hydrogen bonding were present in the structure, API and counterion, 2.190
Å (H2-C11) 3.055 Å (N2-C11); .
Crystal system 100(2) K: orthorhombic
Space group 100(2) K: P212121
Unit cell 100(2) K: a = 6.86590(10) Å, b = 7.34760(10) Å, c =
27.5044(2) Å, a = b = g = 90°, V = 1387.54(3) Å3
Asymmetric unit: contained one molecule of API and one molecule of
hydrochloride (Z' = 1, crystal bonded).
XRPD: 12.4°, 12.8°, 13.6°, 17.6°, 17.9°, 18.1°, 18.7°, 20.0°, 20.5°, 21.8°,
23.1°, 24.9°, 25.5°, 25.9°, 27.4°, 29.0°, 30.4 (2θ, 1 d.p),
DSC: onset 200.03 °C (−156.82 Jg−1, endotherm, melt); suspected to
exhibit peritectic dehydration by thermal microscopy.
TGA: onset 243.12° C. (−78.08% w/w, ablation).
DVS 0 to 90 to 0% RH (dm/dt <0.002%): 0.0 (0.0011%), 5.0
(0.0078%), 10.0 (0.0161%), 15.0 (0.0248%), 20.0 (0.0329%), 25.0,
(0.0379%), 30.0 (0.0462%), 40.0 (0.0659%), 50.0 (0.0961%), 60.0
(0.1388%), 70.0 (0.1902%), 80.0 (0.2647%), 90.0 (0.4599%), 80.0
(0.2935%), 70.0 (0.2211%), 60.0 (0.1671%), 50.0 (0.1367%), 40.0
(0.0968%), 30.0 (0.0860%), 25.0 (0.0714%), 20.0 (0.0648%), 15.0
(0.0547%), 10.0 (0.0455%), 5.0 (0.0344%), 0.0 (0.0239%)
UV chromatographic purity: 99.60% area (254 nm)
1H NMR: (DMSO-d6, 400 MHz); δ 11.2 (s, 1H), 7.6 (d, J = 8.9 Hz, 1H),
7.4 (d, J = 3.1 Hz, 1H), 7.1 (d, J = 2.4 Hz, 1H), 6.8 (dd, J = 8.9, 2.4 Hz,
1H), 6.4 (dd, J = 3.1, 0.6 Hz, 1H), 4.7 (dd, J = 13.7, 4.2 Hz, 1H), 4.3 (dd,
J = 14.1, 9.8 Hz, 1H), 3.7 (s, 4H), 2.7 (dd, J = 19.2, 4.9 Hz, 6H), 1.1 (d,
J = 6.6 Hz, 3H); ppm; conforms to the molecular structure (Σ21H).
Q 1H NMR: 99.5% w/w
Appearance: Refer to
Solubility in SIF buffers: Soluble in all SIF buffers at 37° C. during 24 h.

TABLE 120
Crystalline Compound 1 HCl Form B
Crystalline Compound 1 HCl Form B
Molecular weight: 268.79 gmol−1
Exact molecular weight: 268.1342
Molecular formula: C14H3N2O•HCl
XRPD: 6.7°, 12.5°, 12.6°, 13.0°, 13.9°, 18.0°, 18.3°, 18.9°, 22.0°, 25.0°,
25.1°, 26.0°, 26.1°, 27.6°, 29.2°, 30.6°, 32.5°, 39.2° (2θ, 1 d.p)
DSC: onset 203.4 °C (−137.4 Jg−1, endotherm, melt)
1H NMR: (DMSO-d6, 400 MHz); 11.1 (s, 1H), 7.6 (d, J = 8.9 Hz, 1H),
7.4 (d, J = 3.1 Hz, 1H), 7.1 (d, J = 2.4 Hz, 1H), 6.8 (dd, J = 8.9, 2.4 Hz,
1H), 6.4 (dd, J = 3.1, 0.6 Hz, 1H), 4.7 (dd, J = 13.7, 4.2 Hz, 1H), 4.3
(dd, J = 14.1, 9.8 Hz, 1H), 3.7 (s, 4H), 2.7 (dd, J = 19.2, 4.9 Hz, 6H),
1.1 (d, J = 6.6 Hz, 3H); ppm; conforms to the molecular structure
(Σ21H)

Qualitative Solubility Screen:

Note: For this experiment a scale up of the compound 1 HCl salt was performed. The product (5.16 g, 88% corr. yield) was analysed by DSC, TGA, ¹H NMR and XRPD.

The qualitative solubility screen was carried out to determine the range of solvents incorporated into future suspension equilibration panels.

Products that crystallized were centrifuged and analyzed as wet pellet by XRPD, dried under reduced pressure and re-analyzed by XRPD, with selected samples further analyzed by TGA and ¹H NMR spectroscopy.

Compound 1 HCl was readily soluble in polar solvents and solvents with high water activity (refer to Table 122, −25 mg of starting salt was used).

TABLE 122
Solubility Screen of Compound 1 HCl
		5 vol	10 vol	15 vol
	ICH	Solution at	Solid on	Solution at	Solid on	Solution at
Solvent	Class	20° C.	40° C.	reflux	cooling	20° C.	40° C.	reflux	cooling?	20° C.
Acetone	3	×	×	×	—	×	×	×	—	×
MeCN	2	×	×	×	—	×	×	×	—	×
TBME	3	×	×	×	—	×	×	×	—	×
Chloro-	2	×	×	×	—	×	×	×	—	×
benzene
DCM	2	×	×	×	—	×	×	×	—	×
EtOH	3	×	×	×	—	×	×	×	—	×
EtOAc	3	×	×	×	—	×	×	×	—	×
Ethyl	3	×	×	×	—	×	×	×	—	×
formate
Heptane	3	×	×	×	—	×	×	×	—	×
Isopropyl	3	×	×	×	—	×	×	×	—	×
acetate
MeOH	2	×	×	×	—	×	P	✓	—	—
Methyl	3	×	×	×	—	×	×	×	—	×
acetate
MEK	3	×	×	×	—	×	×	×	—	×
MeTHF	#	×	×	×	—	×	×	×	—	×
Nitro-	2	×	×	×	—	×	P	P	✓	P
methane
2-	3	×	×	×	—	×	P	✓	✓	×
Propanol
THF	2	×	×	×	—	×	×	×		×
Toluene	2	×	×	×	—	×	×	×		×
Water	#	✓	—	—	—	—	—	—	—	—
Acetone/	2	×	×	P	✓	×	P	✓	—	—
Water
(5% v/v,
0.5 aw)
Ethanol/	2	×	×	✓	✓	✓			—	—
Water
(15% v/v,
0.5 aw)
Isopropanol/	2	×	×	P	✓	×	×	✓	—	—
Water
(12%, v/v,
0.5 aw)
		15 vol	20 vol	XRPD	XRPD
		Solution at	Solid on	Solution at	Solid on	(moist	(dried
	Solvent	40° C.	reflux	cooling	20° C.	40° C.	reflux	cooling	pellet)	pellet)
	Acetone	×	×		×	×	×	—	Form A	Form A
	MeCN	×	P	✓	×	×	P	✓	Form A	Insuff.
										mat.
	TBME	×	×	—	×	×	×	—	Form A	Insuff.
										mat.
	Chloro-	×	×	—	×	×	×	—	Paste	Form A
	benzene
	DCM	×	×	—	×	×	×	—	Form A	Insuff.
										mat.
	EtOH	×	P	✓	×	×	P	✓	Form A	Form A
	EtOAc	×	×	—	×	×	×	—	Form A	Insuff.
										mat.
	Ethyl	×	×	—	×	×	×	—	Form A	Insuff.
	formate									mat.
	Heptane	×	×	—	×	×	×	—	Form A	Insuff.
										mat.
	Isopropyl	×	×	—	×	×	×	—		Insuff.
	acetate									mat.
	MeOH	—	—	—	—	—	—	—	Solution	Insuff.
										mat.
	Methyl	×	×	—	×	×	×	—	Paste	Form A
	acetate
	MEK	×	×	—	×	×	×	—	Paste	Form A
	MeTHF	×	×	—	×	×	×		Paste	Form A
	Nitro-	✓	✓	—	—	—	—	—	Paste	Form A
	methane
	2-	P	✓	—	—	—	—	—	Paste	Form A
	Propanol
	THF	×	×	—	×	×	×	—		Insuff.
										mat.
	Toluene	×	×	—	×	×	×	—	Paste	Form A
	Water	—	—	—	—	—	—	—	Solution	Insuff.
										mat.
	Acetone/	—	—	—	—	—	—	—	Solution	Insuff.
	Water									mat.
	(5% v/v,
	0.5 aw)
	Ethanol/	—	—	—	—	—	—	—	Solution	Insuff.
	Water									mat.
	(15% v/v,
	0.5 aw)
	Isopropanol/	—	—	—	—	—	—	—	Solution	Insuff.
	Water									mat.
	(12%, v/v,
	0.5 aw)

Suspension Equilibration at 20 and 40° C.

Suspension equilibration is a thermodynamic dwelling technique, designed to promote the evolution of the API into a more stable phase. The purpose of this panel was to determine if Form A evolves into a supra-ordinate form, the companion panel at 40° C. set-point was in place to detect enantiotropic behavior via different relative proportions in different solvents.

All isolated products, both wet and dry were consistent with Form A at both temperatures. The experimental details are summarized in Tables 106 and 107.

TABLE 106
Stable form suspension equilibration panel-Compound 1 HCl salt was the input salt at the indicated weight.
Input			Observations	Observations	Observations	XRPD	XRPD
Weight	Solvent	XRPD	(t = 0 @	(t = 1 d @	(t = 10 d @	(IPC,	(post oven dried,
(mg)	(5.0 vol)	(Input)	20° C.)	20° C.)	20° C.)	6 d, wet)	40° C., 20 h)
50.4	Acetone	Form	Suspension	Suspension	White Paste	Form	Form
		A				A	A
50.3	MeCN	Form	Suspension	Suspension	White Paste	Form	Form
		A				A	A
50.3	TBME	Form	Suspension	Suspension	White Paste	Form	Form
		A				A	A
50.4	Chlorobenzene	Form	Suspension	Suspension	White	Form	Form
		A			Suspension	A	A
49.9	DCM	Form	Suspension	Suspension	Pink paste	Form	Form
		A				A	A
50.0	EtOH	Form	Suspension	Suspension	Pink paste	Form	Form
		A				A	A
49.7	EtOAc	Form	Suspension	Suspension	White paste	Form	Form
		A				A	A
50.0	Ethyl formate	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
49.2	Heptane	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
50.0	Isopropyl acetate	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
50.4	MeOH	Form	Suspension	Suspension	Orange	Form	Form
		A			suspension	A	A
49.7	Methyl acetate	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
49.8	MEK	Form	Suspension	Suspension	Pink	Form	Form
		A			suspension	A	A
49.9	MeTHF	Form	Suspension	Feint	White	Form	Form
		A		Suspension	suspension	A	A
49.1	Nitromethane	Form	Suspension	Feint	Pink	Form	Form
		A		Suspension	suspension	A	A
49.3	2-Propanol	Form	Suspension	Feint	White	Form	Form
		A		Suspension	suspension	A	A
49.2	THF	Form	Suspension	Feint	Pink	Form	Form
		A		Suspension	suspension	A	A
50.4	Toluene	Form	Suspension	Feint	White	Form	Form
		A		Suspension	suspension	A	A
49.6	Water	Form	Solution	Solution	Yellow	Form	Form
		A			suspension	A	A
50.2	Acetone/Water	Form	Suspension	Suspension	Pink paste	Form	Form
	(5% v/v, 0.5 aw)	A				A	A
50	Ethanol/Water	Form	Suspension	Orange	Pink	Form	Form
	(15% v/v, 0.5 aw)	A		Partial	suspension	A	A
50.2	Isopropanol/Water	Form	Suspension	Partial	Pink	Form	Form
	(12% v/v, 0.5 aw)	A			suspension	A	A

TABLE 107
stable form suspension equilibration panel at 40° C.
Input			Observations	Observations	Observations	XRPD	XRPD
Weight	Solvent	XRPD	(t = 0 @	(t = 1 d @	(t = 10 d @	(IPC,	(post oven dried,
(mg)	(5.0 vol)	(Input)	20° C.)	20° C.)	20° C.)	6 d, wet)	40° C., 20 h)
50.2	Acetone	Form	Suspension	Suspension	Yellow susp.	Form	Form
		A				A	A
50.2	Acetonitrile	Form	Suspension	Suspension	Pink	Form	Form
		A			suspension	A	A
50.0	tBME	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
49.9	Chlorobenzene	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
49.8	DCM	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
50.4	Ethanol	Form	Suspension	Suspension	Pink	Form	Form
		A			suspension	A	A
49.7	Ethyl acetate	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
49.8	Ethyl formate	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
49.6	Heptane	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
50.1	Isopropyl acetate	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
50.0	Methanol	Form	Suspension	Suspension	Orange	Form	Form
		A			suspension	A	A
50.0	Methyl acetate	Form	Suspension	Suspension	Pink	Form	Form
		A			suspension	A	A
49.9	MEK	Form	Suspension	Suspension	Pink	Form	Form
		A			suspension	A	A
49.8	MeTHF	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
50.1	Nitromethane	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
50.0	2-Propanol	Form	Suspension	Suspension	White	Form	Form
		A			suspension	A	A
50.1	THF	Form	Suspension	Suspension	Pink	Form	Form
		A			suspension	A	A
50.0	Toluene		Suspension	Suspension	Pink	Form	Form
					suspension	A	A
49.8	Water	Form	Solution	Darkened	Orange susp.	Form	Insuff.
		A		solution		A	mat.
49.5	Acetone/Water	Form	Suspension	Feint	Orange	—	Form
	(5% v/v, 0.5 aw)	A		suspension	suspension		A
49.8	Ethanol/Water	Form	Feint	Feint	Orange	Form	Form
	(15% v/v, 0.5 aw)	A	suspension	suspension	suspension	A	A
50.2	Isopropanol/Water	Form	Suspension	Feint	Yellow	Form	Form
	(12% v/v, 0.5 aw)	A		suspension	suspension	A	A

Heat-Up % Cood Down Crystallization Sceen

A heat up/cool down crystallization screen was performed. An compound 1 HCl Form A was used as input material.

The experiment was repeated to prepare Pattern #1 at larger quantities to obtain thermal data before conversion into Form A occurred. To achieve that, prolonged filtration was performed instead of oven-drying.

The experimental details are summarized in Table 108.

TABLE 108
Heat up/cool-down crystallization screen
Input			Co-solvents	Key chemical			Observations	XRPD	XRPD
Weights	Solvent A		(volumes	functional	b.p.	ICH	(t = —,	(Moist	(oven
(mg)	(3.0 vol)	Solvent B	added, μl)	groups	(° C.)	Classes	T = 70° C.)	pellet)	dried)
74.7	Acetone	Water	50	Symmetrical	56	3	Pink solution	Form A	Form A
				ketone
75.2	MeCN	Water	25	Simple	82	2	Pink solution	Pattern	Form A
				dipolaraprotic				#1
				nitrile
75.8	TBME	MeOH	425	Branched	55	3	Pink solution	Form A	Form A
				aliphatic
				methoxyether
75.3	Chlorobenzene	MeOH	175	Aromatic halide	131	2	Pink solution	Form A	Form A
75.5	DCM	MeOH	125	Chlorinated	40	2	Pink solution	Form A	Form A
				hydrocarbon
74.4	EtOH	Water	50	Linear aliphatic	78	3	Pink solution	Form A	Form A
				alcohol
74.8	EtOAc	EtOH	1375	Aliphatic ester	75	3	Pink solution	Form A	Form A
74.4	Ethyl formate	MeOH	225	Aliphatic ester	54	3	Pink solution	Form A	Form A
74.8	Isopropyl	IPA	3725	Branched	89	3	Suspension	Form A	Form A
	acetate			aliphatic ester
75.4	MeOH	water	25	Simple aliphatic	65	2	Pink solution	Form A	Form A
				alcohol
75.4	Methyl acetate	Water	75	Aliphatic ester	57	3	Pink solution	Insuff.	Insuff.
								material	material
75.3	MEK	Water	50	Asymmetric	80	3	Pink solution	Form A	Form A
				dialkyl ketone
75.5	MeTHF	MeOH	425	Asummetric	80		Pink solution	Form A	Form A
				cyclic ether
75.4	Nitromethane	MeOH	50	Dipolar aprotic	100	2	Pink solution	Form A	Form A
				nitro
74.5	2-Propanol	Water	75	Branched	83	3	Pink solution	Form A	Form A
				aliphatic alcohol
75.5	THF	Water	50	Symmetric	66	2	Pink solution	Form A	Form A
				cyclic ether
75.5	Toluene	MeOH	200	Alkyl aromatic	111	2	Pink solution	Form A	Form A
				hydrocarbon
75.5	Water	—	—	Water	100	#	Pink solution	Insuff.	Insuff.
								material	material

Wet pellets were analysed by XRPD, a different diffraction pattern was obtained from acetonitrile/water (Pattern #1), that corresponded to a metastable form and reverted to Form A during oven drying. (FIG. 299).

First Attempt: Re-Preparation of Pattern #1

Attempts were made to re-prepare pattern 1 using the methods from Table 108 that initially resulted in pattern 1. The experiment was performed on 75 mg scale. The isolation and drying were carried-out using a Hirsch funnel, and gave insufficient recovered material to perform full analysis.

Therefore, the preparation was repeated, under the same conditions, with isolation via centrifuge, followed by drying under steady N2 flux, with IPC on the wet pellet performed after 30 min (Congruent with Form A).

Drying continued 2 h and yielded enough material to perform full characterisation. This experiment was not successful in giving Pattern #1 because the product reverted to Form A, this serves to highlight the metastability of Pattern #1. Companion analytical data are reported in FIG. 357.

Second Attempt: Re Preparation of Pattern #1

HUCD crystallization from acetonitrile/water was repeated to generate Pattern #1.

Initial attempt gave Form A.

Third Attempt: Re-preparation of Pattern #1

Preparation was repeated via controlled heat-up/cool-down performed on the crystalline batch, which successfully delivered Pattern #, Form B (see FIG. 303). The procedure heated the sample 20-70° C. at 0.5° C. per minute which was held for 30 minutes and was cooled 70-10° C. at 0.1° C./min O/N.

Experimental Details:

Crystalline compound 1 HCl Form A (ca 50.4 mg, 1.0 wt) was charged to a vial. The acetonitrile (0.150 ml, 3.0 vol) was added to the appropriate vial and the suspension were stirred and heated to 70° C. Water was added in aliquots of 10 μL to complete dissolution (total: 20 μL). The solution was stirred at 70° C. for 30 min to ensure full dissolution. Once dissolved, the solution was left to cool down to ambient and then placed in the fridge overnight.

Specimen quality was determined by PLM and SC-XRD is judged achievable. The DSC profile was measured (FIG. 303). DSC (203.4° C., −137.4 Jg⁻¹), was similar to Form A (200.0° C., −156.8 Jg⁻), currently, an explanation would be conversion to Form A during sample preparation (FIGS. 304-305).

Binary Solvent Evaporation Crystallization

A binary solvent evaporation crystallization panel was performed. Separate portions of Compound 1 HCl 50 mg) were dissolved in a primary solvent of water (500 μl per sample) and a secondary solvent−one of either acetone (250 μl, A), acetonitrile (250 μl, B), THE (250 μl, C) and methanol (250 μl, D).

Each vial was capped with aluminium foil, pieced and allowed to stand undisturbed until Table 109.

TABLE 109
Binary Solvent Evaporation Crystallization
	Input			Co-			Observations	Observations
	Weights	Solvent A	Co-solvent	solvents	b.p.	ICH	(t = 7 days	(t = 14 days	Yield	1H NMR
	(mg)	(10.0 vol)	B	(vol. μL)	(° C.)	classes	@ ambient)	@ ambient)	%	(Mol. Struc.)	XRPD
A	50.3	Water	Acetone	250	56	3	Concentrated	Solid	82.5%	concordant	Form
							solution				A
B	50.4	Water	Acetonitrile	250	81	2	Concentrated	Solid	78.8%	concordant	Form
							solution				A
C	50.1	Water	THF	250	65	2	Concentrated	Solid	99.4%	concordant	Form
							solution				A
D	49.9	Water	Methanol	250	65	1	Concentrated	Solid	84.2%	concordant	Form
							solution				A

Companion analytical data are reported in FIGS. 306-321.

Equilibrium Humidity Evaluation of Crystalline Compound 1 HCl Form A

The stability of crystalline compound 1 HCl Form A was evaluated. Absorbent compound 1⋅HCl (Form A), (100 mg) was maintained, open-capped at 95% RH/20° C. and monitored at t=0, t=5 d and t=10 d, time points.

While absorbent Compound 1 HCl Form A), (100 mg) was placed open-capped inside double, cable-tied, electrostatic polythene bags (to mimic a typical packaging configuration) and placed inside the same humidity chamber at 95% RH at 20° C. and monitored at t=0, t=5 d and t=10 d time points. Companion analytical data is reported in FIGS. 322-330. Stability of compound 1⋅HCl (Form A) at 40° C./75% RH was examined as part of the salt screen, and was stable over 10 d.

TABLE 110
Equilibrium humidity stability t = 0 to 5 days, 95% RH @ 20° C.
T = 0 to 5 days, 95% RH @ 20° C.
Experimental	Input	XRPD	XRPD	XRPD
Reference	(mg)	(t = 0)	(t = 5 d)	(t = 10 d)
Open vial	102.1	Form A	Form A	Form A
Double	102.5	Form A	Form A	Form A
polyethylene
bagged, open
vial
t = 10 days, 95% RH @ 20° C.
	1H NMR	TGA 20 to		DSC onset,
Experimental	methanol	200° C.		ΔHfus
Reference	(% w/w)	(° C., -% w/w)	XRPD	(° C., Jg−1)
Open vial	n.d.	Flat base line,	Form A	204.4° C.
		anhydrous		(131.85)
Double	n.d.	Flat base line,	Form A	203.7° C.
polyethylene		anhydrous		(−132.92)
bagged, open
vial

TABLE 111
Purify data for crystalline compound 1 HCl Form A after 10 days in an open-capped vial inside double
bags at 95% RH/20
	Area
	(mAu*) for
RRT-HPLC analysis	reference	11.29	11.41	12.41	14.32	15.05	15.41	15.78	16.50
(MET/CR/0000)	RRT = 1.00	0.93	0.94	1.00	1.18	1.24	1.27	1.30	1.36
Compound 1 HCl (t = 0)	46522.72		0.07	99.65	0.03	0.05	0.07	0.04	0.08
Compound 1 HCl (t = 10 d)	20556.47	0.06	0.02	99.79	0.03	0.04	0.02

TABLE 112
Purify data for crystalline compound 1 HCl Form A after 10 days in an open-capped vial inside double
bags at 95% RH/20
	Area
	(mAu*) for
RRT-HPLC analysis	reference	11.41	12.01	12.14	14.32	14.68	15.05	15.41	15.78	16.50
(MET/CR/0000)	RRT = 1.00	0.94	0.99	1.00	1.18	1.21	1.24	1.27	1.30	1.36
Compound 1 HCl (t = 0)	46522.72	0.07	0.02	99.65	0.03		0.05	0.07	0.04	0.08
Compound 1 HCl (t = 10 d)	19289.46	0.06	0.02	99.78	0.03	0.03	0.05	0.01	0.02

Liquid Assisted Grinding and Neat Pulverization

Liquid assisted grinding and neat pulverization experiments were performed.

Separate portions of crystalline compound 1 HCl Form A (50 mg) were pulverized in the presence in water (25 μl, η=0.5), trifluoroethanol (25 μl, η=0.5) as well as under neat-grind conditions.

A single 7 mm steel bead was added to each reactor, after which they were sealed, and oscillated for 30 minutes at 8.0 Hz (ca. 500 rpm).

The products were retrieved and analysed by XRPD, the phase of the products was consistent with the input (Form A), i.e., no polymorphic changes were observed under these conditions.

Since the oscillations input a large amount of kinetic and mechanical energy and are designed to promote chemical and physical change, the products were also analyzed by ¹H NMR spectroscopy (refer to FIG. 358), no significant chemical changes were observed.

LAG Grinding at 500 rpm was carried out under neat and liquid assisted grinding conditions.

DSC analyses of the product that employed trifluoroethanol as the liquid assist, exhibited a probable crystallisation event (FIG. 359), the analyses was repeated at the later time point and the first endotherm was absent (probably crystallisation of amorphous phase, see FIG. 360), and the fusion temperature remained consistent with Form A.

DVS Analysis

DVS analysis dm/dt 0.0002%/min of crystalline compound 1HCl Form A was performed. Mass equilibration was enabled in between % RH stepped increments and decrements. Slightly hygroscopic, held on to a little water at 0°4 RH, powder pattern of residue after DVS treatment was congruent with Form A (FIGS. 331, 332, and 361).

Single Crystal Structure Determination Form A

Single crystals of the API were grown by evaporation of a DCM solution (initial 100 vol). The simulated powder pattern from single crystal structure was in good agreement with Form A powder pattern and explained the powder pattern observed in the bulk phase (FIGS. 362-363).

The information obtained from the SC-XRD data (refer to FIGS. 335-337) were the following:

• • The final refinement yielded the structure of the unary hydrochloride salt in the orthorhombic space group P2₁2₁2₁.
  • Z′=1 (asymmetric unit), one molecule of API and one molecule of hydrochloride.
  • With Z=4 molecules of API within the unit cell; there were no other molecules present in the structure (no solvent).
  • Intermolecular interactions in the form of hydrogen bonding were present in the structure, API and counterion, 2.190 Å (H2-Cl1) 3.055 Å (N2-C11).
  • No significant π-π stacking interactions were present in the structure.
  • Void analysis of the structure indicated a maximum probe radius of 0.7 Å that was too small for solvent molecules to occupy; meaning channel and pocket hydrates are less likely to occur.

The final refinement yielded the structure of the unary fumarate salt in the orthorhombic space group P2₁2₁2₁. Z′=1 (asymmetric unit), one molecule of API and one molecule of fumarate. With Z=4 molecules of API within the unit cell; there were no other molecules present in the structure (no solvent). Intermolecular interactions in the form of hydrogen bonding were present in the structure, API and counterion, 2.656 Å (N2-O2) and 2.590 Å (03-05); giving the chain-like structure observed in the image. No significant π-π stacking interactions were present in the structure. Void analysis, indicated a maximum probe radius of 0.93 Å, that was too small for solvent molecules to occupy; meaning channel and pocket hydrates are less likely to occur.

Single Crystal Structure Determination—Form B

A sample of Form B was submitted to the UK National Crystallography Service to collect SC-XRD data for Form B, Pattern #1. The simulated powder diffraction pattern resembled Form A (refer to FIG. 364). This signifies the metastability of Form B, as the sample was converted to stable Form A during transit.

Example 13. Attempted Formation of a Crystalline Compound 1 Fumarate Salt by Way of Dissolution in Chloroform and Dropwise Addition to Fumaric Acid in THF

A previously published method that allegedly formed a solid compound 1 fumarate salt was reproduced and did not yield a crystalline compound 1 fumarate salt. By contrast, new methods disclosed herein did produce a crystalline compound 1 fumarate salt.

Previously Published Method:

[(2R)-1-(5-Methoxy-1H-indol-1-yl)propan-2-yl]dimethylamine (7.61 g, 32.8 mmol) was dissolved in chloroform (50 mL). This solution was added dropwise to a boiling solution of fumaric acid (3.80 g, 32.8 mmol) in THF (150 mL). The resulting solution was allowed to cool to rt and then concentrated in vacuo. Upon prolonged rotary evaporation (water bath temperature 50° C.) a brittle brown foam formed in the flask. This foam was crushed with a spatula to afford the title compound (11.8 g) as a pale brown solid. Retention time 1.094 min; Purity by UV (225 nm +/−50)=98.8%; Calculated for [C14H20N2O]⁺233.3; found 233.2; ¹H NMR (400 MHz, DMSO-d₆) δ 7.37 (d, J=8.9 Hz, 1H), 7.29 (d, J=3.0 Hz, 1H), 7.04(d, J=2.4 Hz, 1H), 6.77 (dd, J=8.9, 2.5 Hz, 1H), 6.60 (s, 2H), 6.33 (dd, J=3.1, 0.8 Hz, 1H), 4.26 (dd, J=14.2, 6.2 Hz, 1H), 4.02 (dd, J=14.2, 7.9 Hz, 1H), 3.75 (s, 3H), 3.12 (dp, J=7.9, 6.5 Hz, 1H), 2.31 (s, 6H), 0.85 (d, J=6.6 Hz, 3H). XRPD analysis showed this material was amorphous (FIG. 350).

New Method Disclosed Herein:

A solution of [(2R)-1-(5-methoxy-1H-indol-1-yl)propan-2-yl]dimethylamine (7.14 g, 30.7 mmol) in chloroform (50 mL) was added to a boiling solution of fumaric acid (3.57 g, 30.7 mmol) in THF (150 mL). The solution was then concentrated in vacuo to a viscous brown oil. This material was dissolved in methyl ethyl ketone, also known as 2-butanone (MEK; 25 mL), with sonication, and to the stirring solution was added crystals (ca. 10 mg) of [(2R)-1-(5-methoxy-1H-indol-1-yl)propan-2-yl]dimethylamine fumarate salt (polymorph form A). A fine precipitate was observed after 10 min. The suspension was stirred for 24 hours at rt. The solid was isolated by filtration and the filter cake was washed with MEK (ca. 5 mL). The salt was air dried on the filter for 20 min and then dried in a vacuum oven over a weekend at 40° C. The title compound was obtained as an off-white solid (8.1 g, 75%). Retention time 1.141 minutes; Purity by UV (225 nm +/−50)=98%; Calculated for [C₁₄H₂₀N₂O]⁺ 233.3; found 233.2; ¹H NMR (400 MHz, DMSO-d₆) S 7.35 (d, J=8.8 Hz, 1H), 7.29 (d, J=3.0 Hz, 1H), 7.03 (d, J=2.4 Hz, 1H), 6.76 (dd, J=8.9, 2.5 Hz, 1H), 6.60 (s, 2H), 6.32 (dd, J=3.1, 0.8 Hz, 1H), 4.23 (dd, J=14.2, 6.4 Hz, 1H), 4.00 (dd, J=14.2, 7.7 Hz, 1H), 3.75 (s, 3H), 3.07 (dt, J=7.6, 6.4 Hz, 1H), 2.27 (s, 6H), 0.84 (d, J=6.6 Hz, 3H). XRPD analysis showed that this material was crystalline compound 1 fumarate Form A (FIGS. 351—sample 1, and FIG. 352—sample 2), as the XRPD profile corresponded to the representative XRPD pattern for compound 1 fumarate Form A that is characterized in FIG. 8, and Table 6. The XRPD signals observed for the profiles shown in FIGS. 351 and 352 are provided below.

TABLE 116
Crystalline Compound 1 Fumarate XRPD signals (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation) observed for sample #1 produced by a
method disclosed herein.
Signal	Position.	d-spacing	Relative Intensity
No.	[°2θ]	[Å]	[%]
1	10.2118	8.65535	18.19
2	13.4987	6.55428	43.98
3	14.1419	6.25761	55.37
4	15.6865	5.64474	21.11
5	16.0097	5.5315	67.09
6	18.5332	4.78363	19.71
7	19.0629	4.65188	21.73
9	19.526	4.54259	41.34
9	20.9831	4.2303	27.12
10	21.3971	4.14939	29.15
11	21.6587	4.09986	36.3
12	22.4904	3.95009	100
13	23.2901	3.81622	12.15
14	24.5427	3.62422	10.23
15	25.1714	3.53511	10.3
16	28.2412	3.15743	15.82
17	29.1829	3.05765	13.51

TABLE 117
Crystalline Compound 1 Fumarate XRPD signals (±0.2 °2θ; ±0.1 °2θ;
or ±0.0 °2θ; Cu Kα1 radiation) observed for sample #2 produced by a
method disclosed herein.
Signal	Position	d-spacing	Relative Intensity
No.	[°2θ]	[Å]	[%]
1	10.2121	8.65507	17.73
2	13.5021	6.55265	41.1
3	14.1435	6.25689	50.24
4	15.7017	5.63931	20.51
5	16.0141	5.52998	64.28
6	18.5312	4.78413	19.76
7	19.0784	4.64812	22.95
8	19.5294	4.54179	35.8
9	20.9861	4.22971	27.92
10	21.4019	4.14847	29.07
11	21.6681	4.09811	33.8
12	22.4888	3.95036	100
13	23.2878	3.81661	13.57
14	24.5339	3.6255	10.59
15	25.1566	3.53715	13.37
16	28.2376	3.15782	16.44
17	29.1788	3.05808	14.71

Example 14: Preparation and Characterization of Amorphous Forms of Compound 1 Fumarate and Compound 1 HCl

Abbreviations

• • ϕ_i Water activity coefficient
  • a_w Water activity
  • ASD Amorphous solid dispersion
  • ca. circa (Latin: approximately)
  • cf Confer/conferatur (Latin: to confer, to compare)
  • ° C. degree Celsius
  • CP Chemical Purity
  • CP-MAS Cross Polarised Magic Angle Spinning (¹³C NMR solid state technique)
  • Da Dalton
  • DSC Differential Scanning Calorimetry (measures changes in heat capacity)
  • DTA Differential Thermal Analyses (measures changes in temperature)
  • DVS Dynamic Vapour Sorption fused interchangeably with GVS)
  • e.g. Exempli gratia (Latin: for example)
  • etc. Et cetera (Latin: ‘and others’ or ‘and so on’)
  • FT-1R Fourier Transformed, InfraRed spectroscopy (prefixed mid and far)
  • g Gram (s)
  • GRAS Generally Recognised As Safe
  • GVS Gravimetric Vapour Sorption
  • h Hour (s)
  • HFIPA Hexafluoroisopropanol
  • HPLC High Performance Liquid Chromatography
  • HSM Hot Stage Microscopy (thermal microscopy)
  • HUCD Heat-up/cool-down crystallisation
  • i.e. Id Est (Latin: that is)
  • IR InfraRed Spectroscopy
  • J Joule
  • Kelvin Kelvin. SI unit of temperature, used interchangeably with C to express increment/decrement of temperature set point (e.g. tamp rate on DSC thermogram 10 K/min); note K sign not prefixed by.
  • KF Karl Fischer (determination of the water content by coulometric titration)
  • kg Kilogram (s)
  • LOD Loss On Drying
  • mag magnification
  • mAu milli-Absorption units (chromatographic unit of peak height)
  • mAu*s milli-Absorption units multiplied by second (chromatographic unit of peak area)
  • MET/CR Aptuit chromatography method reference
  • min Minute (s)
  • mg Milligram (s)
  • ml Millilitre (s)
  • mol mole, amount of substance
  • N/A Not Applicable
  • n.a. not analysed
  • rid not detected
  • nm nanometre
  • NMR Nuclear Magnetic Resonance
  • oab on anhydrous basis
  • osfb on solvent flee basis
  • oasfb on anhydrous solvent free basis
  • pH −log[H+] or pH=−log a_H⁺
  • pK_a −log 0(a), acid dissociation constant
  • pl isoelectric point, quoted in unit pH
  • PLM Polarised Light Microscopy
  • ReIRT Relative Retention Time (not be confused RT)
  • REP/Aptuit report (REP) reference
  • RFA Request For Analysis (unique reference number)
  • RH Relative Humidity (a_w*100)
  • RT Room Temperature (ambient, typically: 15 to 25° C.)
  • s Second (s)
  • SCXD Single Crystal X-Ray Determination
  • SMPT Solvent mediated phase transition
  • STA Simulated Thermal Analysis (STA=TGA+DTA)
  • t time in seconds, minutes, hour, days etc. (interval specified in parentheses); alias in common use tonne (t)
  • t Tonne, metric unit of mass (10(10 kg; 1 Mg), (compaction force in kg, suffixed in parentheses)
  • T Temperature recorded in degrees Celsius (° C.); alias in common use. SI unit of magnetic flux density, also denoted T
  • MTBE Methyl ten-butyl ether
  • TCNB 2,3,5,6-Tetrachloronitrobenzene (C₆HCl₄NO₂, F.W. 260.89 gmol⁻¹)
  • TFE Trifluoroethanol (solvent used for solvent drop grinding)
  • Tg Glass temperature
  • TGA Thermogravitnettic Analysis
  • th. theoretical
  • UV Ultra Violet
  • vol. Volume or relative volume
  • vs versus
  • v/v volume/volume
  • W Watt
  • w/w weight/weight
  • XRPD X-Ray Powder Diffraction

Definitions

• • Isostnrctural Crystals are said to be isostntctural if they have the same crystal structure but not necessarily the same cell dimensions nor the same chemical composition (K{dot over (a)}lmán, A., Párkányi, L. & Argay. G. (1993) ActaCryst. B49. 1039-1049.)
  • Isomorphic two crystalline solids are isomorphous if both have the same unit-cell dimensions and space/soup (source, vide supra).
  • Isomorphic desolvate via solvent release from an isostructural solvate.
  • Native Refers to an API in its native or non-ionised form.
  • Normal light Light oscillating in all directions perpendicular to the axis to which the it travels.
  • Particle sire Expressed as a volume distribution, the range ×10>PSD<×90 captures the sizes of 80% of the particles.
  • Plane polarised light Light passed through a polaroid filter which allows only light oscillating in one plane to be transmitted
  • Polymorphism Crystalline solid able to exhibit different crystalline phases.
  • Photomicrograph Imaged captured of a small object under magnification through an optical microscope.
  • Pseudopolymorphism Different crystal structure attributed to the incorporation of molecular water or solvent.
  • Solvates Contains a molecule of solvent in the crystal lattice.
  • Thermogram Differential scanning calorimetry trace: heat flow on y-ordinate (mW). time (minutes)/temperature (° C.) on x-ordinate.

Experimental

DSC:

A Mettler Toledo DSC 3 instrument was used for the thermal analysis operating with STARe™ software. The analysis was conducted in open aluminium pans (40 μl), under nitrogen and sample sizes ranged from 1 to 10 mg. Typical analysis method was 20 to 250° C. at 10° C./minute.

Alternatively, a Mettler Toledo DSC 1 with auto-sampler instrument was used for the thermal analysis operating with STARe™ software. The analysis was conducted in open aluminium pans (40 μl), under nitrogen and sample sizes ranged from 1 to 10 mg. Typical analysis method was 25 to 300° C. at 10° C./minute.

LC-MS

Routine Liquid Chromatography-Mass Spectrometry (LC-MS) data were collected using the Agilent 1260 Infinity II interfaced with 1260 Infinity II DAD HS and Agilent series 1260 Infinity II binary pump.

The instrument used a single quadrupole InfinityLab MSD. The instrument was calibrated up to 2000 Da.

• • LC-MS method parameters:
  • Inj.vol: 5 pl
  • Detection: UV 0 254 nm
  • Mobile Phase A: Acetonitrile+0.1% TFA/H₂O 95:5
  • Mobile Phase B: Acetonitrile+0.05% TFA/H₂O 5:95

TABLE 127
LC/MS methods
Time (mins)	% A	% B
0.0	100	0
1	100	0
10.00	0	100
10.01	100	0
12.00	100	0

• • Flow Rate: 1 ml/min
  • Column temperature: 30° C.
  • Run time 12 minutes.

1H NMR

¹H NMR spectra were acquired using a Bruker 400 MHz spectrometer and data was processed using Topspin. Samples were prepared in DMSO-d₆ at typical concentrations of 10 to 20 mg/ml and up to 50 mg/ml for ¹H NMR w/w assay and calibrated to the corresponding non-deuterated solvent residual at 2.50 ppm.

1H NMR Assay

Assays (w/w) of API by ¹H NMR spectroscopy were measured by the project chemist using Topspin. Internal standard 2,3,5,6-terachloronitrobenzene (TCNB, ca. 20 mg, F.W. 260.89) were dissolved in DMSO-d₆ (1.0 ml) and the ¹H NMR spectrum was acquired using an extended relaxation method.

TGA

A Mettler Toledo TGA-2 instrument was used to measure the weight loss as a function of temperature from 25 to 500° C. The scan rate was typically 5 or 10° C. per minute. Experiments and analysis were carried out using the STARe™ software. The analysis was conducted in 100 μl open aluminium pans, under nitrogen and sample sizes ranged from 1 to 10 mg.

XRPD

X-ray powder diffraction (XRPD) analysis was carried out using a Bruker D2 Phaser powder diffractometer equipped with a LynxEye detector. The specimens underwent minimum preparation but, if necessary, were lightly milled in a pestle and mortar before acquisition. The specimens were located at the centre of a silicon, low background, sample holder within a 5 mm pocket (ca. 5 to 10 mg). The samples were continuously spun during data collection and scanned using a step size of 0.02° 2-theta (2θ) between the range of 4° to 40° 2-theta or 5° to 60° 2 theta. Data were acquired using either 3 minute or 10-minute acquisition methods. Bruker Diffrac. Suite was used to process the data.

Freeze Drying

Each salt was charged into a 7 ml vial (50 mg, 1 wt). Vials were charged with 10 vol water to fully dissolve the sample. Vials were placed on freeze drier overnight, and powders were recovered in each case. Analysis of samples by XRPD was performed, and each sample remained crystalline.

Evaporation

Compound 1 HCl (50.6 mg, 1 wt) charged to a 7 ml vial followed by HFIPA (50 μl, 1 vol), sample reached full dissolution. Solution transferred to XRPD plate, left in ambient conditions to evaporate overnight, product analysed by XRPD.

Rotary Evaporation

Compound 1 monofumarate (50 mg, 1 wt) charged to 7 ml vial followed by methanol (1 ml, 20 vol), forming a solution. Sample was dried by rotary evaporation, yielding an oil, left to stand overnight, material stuck to side of flask unable to be manipulated.

Binary Solvent

Compound 1 monofumarate (50 mg, 1 wt) charged to 7 ml vial, followed by methanol (600 μl, 12 vol). Solution was passed through a syringe filter into a 7 ml vial containing diethyl ether (1 ml, 20 vol). The solution was dried under N2 flux and analysed by XRPD.

DSC

Two DSC pan were charged with the appropriate salts, the first DSC pan was not sealed (Open Pan DSC), the second pan had its lid crimped to the pan (hermetic sealed DSC). The open pan DSC was thermocycled from 20° C. to just after the melt event for each salt, cooled to −20° C. and left to stand under ambient conditions over night. The open pan DSC was reheated to just before the degradation event.

The hermetic sealed DSC was heated from 20° C. to just after the melt event, cooled to −20° C. then reheated to just before the degradation event.

TGA

A TGA crucible was charged with the appropriate salt and thermocycled from 20° C. to past the melt event and then cooled to −20° C., followed by immediately heating to just before the degradation event to measure the Tg.

Hot Plate Melt

A XRPD silicone plate was loaded with the appropriate salt, heated on the hot plate until melted, cooled, and analyzed by XRPD to ensure the phase was amorphous.

An XRPD silicone sample plate was loaded with the appropriate salt, heated on the hot stage microscope block until melted, cooled and analysed by XRPD to ensure that the phase was amorphous. Once amorphous material was obtained, samples of this, were analysed by LC-MS spectrometry and ¹H NMR spectroscopy to ensure that no change in chemical composition had occurred.

Results

Samples of compound 1 HCl and compound 1 monofumarate were exposed to a variety of techniques in attempts to generate the amorphous forms, including freeze drying, evaporation, anti solvent addition. These techniques were not successful for compound 1 HCl.

The amorphous form of compound 1 monofumarate was obtained from the evaporation of a binary solvent mixture of methanol and diethyl ether. Samples were analyzed by XRPD to determine the crystallinity (Table 128). Amorphous compound 1 monofumarate XRPD is shown in FIG. 379 and FIG. 390.

TABLE 128
Amorphous Study of Compound 1 monofumarate and Compound 1 HCl
	Scale	Amorphisation		Form by
Salt form	investigation	activity	Outcome	XRPD
Compound 1	50 mg	Freeze dry	Crystalline	Form A
HCl
Compound 1	50 mg	Antisolvent/	Crystalline	Form A
HCl		N2 flow
Compound 1	50 mg	HFIPA	Crystalline	Form A
HCl		Evaporation
Compound 1	50 mg	HFIPA	Crystalline	Form A
HCl		Evaporation
		o/n
Compound 1	50 mg	Freeze dry	Crystalline	Form A
Monofumarate
Compound 1	50 mg	Rotary Vac	Gum	—
Monofumarate		(Methanol)
Compound 1	50 mg	Antisolvent/	Gum	Amorphous
Monofumarate		N2 flow	(Amorphous)

Initial experiments to produce the amorphous phase were unsuccessful for Compound 1 HCl, although the amorphous phase was generated for Compound 1 monofumarate. Therefore, thermal techniques were used to access the amorphous phase in-situ and complete measurement of the glass temperature (Tg).

Each salt was analysed by DSC and TGA to determine the Tg of the amorphous form. Amorphous forms were generated by thermocycling the salts past their melt temperatures, cooling the specimens, and once cooled the specimens were reheated. Open pan and sealed pan DSC were utilized, open pan DSC were heated past the melt event, cooled, and left to stand under ambient conditions overnight. Sealed pans were immediately cycled with no time left to stand.

TGA (open pan) samples were analysed by thermocycle, with no time for the sample to stand under ambient conditions.

The amorphous forms were generated in these studies and characterized with their Tg being recorded. DSC and TGA profiles of amorphous compound 1 HCl are shown in FIGS. 370-373 and 374-377, respectively. DSC and TGA profiles of amorphous compound 1 monofumarate are shown in FIGS. 381-384 and 385-388, respectively.

A hot stage microscope heating block was used to generate the amorphous in-situ to allow analysis by XRPD. A low background, silicon XRPD sample-plate holder was loaded with the appropriate salt. The plate was heated past the melt event, removed from the hot stage microscope, cooled, to ambient temperature in air and analyzed by XRPD, to ensure that the amorphous form was generated. The amorphous material was then analyzed by ¹H NMR spectroscopy and LC-MS spectrometry to ensure there was no change in the chemical composition. Each sample was analysed, to confirm the amorphous form, and thermal characterization was performed. ¹H NMR spectroscopy and LC-MS spectrometry, confirmed that there was no change in the chemical composition of the samples after treatment. ¹H NMR and LC profiles of amorphous compound 1 HCl are shown in FIG. 368 and FIG. 378, respectively. ¹H NMR and LC profiles of amorphous compound 1 monofumarate are shown in FIG. 380 and FIG. 389, respectively.

Thermal Study of Compound 1 Monofumarate and Compound 1 HCl

Salt form	Experiment	Temperature range (° C.)	Outcome
Compound 1	Open Pan	20 to 220 to −20,	Amorphous
HCl	DSC	O/N 20 to 250
Compound 1	Sealed DSC	20 to 220 to −20 to 250	Amorphous
HCl
Compound 1	TGA	20 to 220 to −20 to 250	Amorphous
HCl
Compound 1	Hot plate	20 to 236	Form A
HCl	heat-up
Compound 1	Hot stage plate	20 to 260	Amorphous
HCl	heat-up
Compound 1	Hot stage plate	20 to 260	Form A with
HCl	heat-up		PO*
Compound 1	Hot stage plate	20 to 275	Amorphous
HCl	heat-up
Compound 1	Open Pan	20 to 145 to −20,	Amorphous
Monofumarate	DSC	O/N 20 to 230
Compound 1	Sealed DSC	20 to 145 to −20 to 230	Amorphous
Monofumarate
Compound 1	TGA	20 to 145 to −20 to 230	Amorphous
Monofumarate
Compound 1	Hot plate	20 to 165	Amorphous
Monofumarate	heat-up
Compound 1	Hot stage plate	20 to 165	Amorphous
Monofumarate	heat-up
*PO- preferred orientation The characterization of the amorphous material was successful with the Tg being determined for each compound (refer to Table 130). Material was characterized by 1H NMR and LC-MS to confirm the sample was not degraded during treatment.

               Glass temperatures
Salt           (Tg)
Compound 1 HCl 37° C.
Compound 1     24° C.
Monofumarate

Provenances
of reference
batches        Amorphous Compound 1 HCl
Heated up past Molecular weight: 268.790 gmol−1
the melt event Exact molecular weight: 268.135
on a hot stage Molecular formula: C14H21ClN2O
microscope     XRPD: Amorphous (FIG. 369)
               1H NMR: (DMSO-d6, 400 MHz); δ 11.2 (s, 1H), 7.6
               (d, 1H), 7.4 (d, 1H), 7.1 (d, 1H), 6.8 (dd, 1H), 6.4
               (d, 1H), 4.7 (d, 1H), 4.3 (dd, 1H), 3.8 (s, 4H), 2.7
               (m, 6H), 1.1 (d, 3H); ppm; conforms to the molecular
               structure (Σ21H).

Provenances
of reference
batches        Amorphous compound 1 fumarate
Heated up past Molecular weight: 348.399 gmol−1
the melt event Exact molecular weight: 348.169
on a hot stage Molecular formula: C18H24N2O5
microscope     XRPD: Amorphous (FIG. 379, FIG. 390)
               1H NMR: (DMSO-d6, 400 MHZ); δ 7.4 (d, 1H), 7.3
               (s, 1H), 7.0 (s, 1H), 6.8 (dt, 1H), 6.6 (s, 2H), 6.3
               (td, 1H), 4.3 (dd, 1H), 4.0 (dd, 1H), 3.8 (s, 3H), 3.1
               (p, 1H), 2.3 (s, 6H), 0.8 (dd, 3H) conforms to the
               molecular structure (Σ22H).

	DSC			1H NMR
		Thermal	TGA	1H NMR	1H NMR	Form
Designation	Event	measurements	% Δwt.	Comment	(stoich.)	(solvent)	Assignment
Amorphous	Tg	Integral	−2.2 Jg{circumflex over ( )} − 1	−18.2%,	De-	1 to 1	—	Amorphous
Compound 1	Crystallisation,	Onset	37.07° C.	206.7° C.	solvation	(API to
HCl	Melt	Peak	43.00° C.			HCl)
		Endset	48.35° C.
Amorphous	Tg	Integral	−1.73 Jg{circumflex over ( )} − 1	—	No events	1 to 1	—	Amorphous
Compound 1		Onset	21.14° C.		observed.	(API to
monofumarate		Peak	29.67° C.			fumarate)
		Endset	34.30° C.

Listing of Numbered Embodiments

1 Å (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine, compound 1) salt.

2. The compound 1 salt of embodiment 1, wherein the salt is crystalline.

3. The compound 1 salt of embodiment 1, wherein the salt is amorphous.

4. The compound 1 salt of embodiment any one of claims 1 to 3, wherein the salt is a fumarate, monofumarate salt or hemi-fumarate salt.

5. The compound 1 salt of embodiment 1, 2, or 4, wherein the compound 1 salt is a compound 1 monofumarate salt that is a crystalline polymorphic form characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 22.4°2θ, 15.9°2θ, and 19.5 °2θ, 19.3 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

6. The compound 1 monofumarate salt of embodiment 4 or 5, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by XRPD signals at 22.4°2θ, 15.9°2θ, and 19.5°2θ.

7. The compound 1 monofumarate salt of any one of embodiments 4-6, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by an XRPD pattern substantially similar to that shown in FIG. 157.

8. The compound 1 monofumarate salt of any one of embodiments 4-7, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by a DSC diagram having a melting signal at about 118.2° C.

9. The compound 1 monofumarate salt of embodiment 8, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by a DSC profile substantially similar to that shown in FIG. 159.

10. The compound 1 monofumarate salt of any one of embodiments 4-9, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 207.9° C.

11. The compound 1 monofumarate salt of any one of embodiments 4-9, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by a TGA diagram substantially similar to that shown in FIG. 158.

12. The compound 1 monofumarate salt of any one of embodiments 1, 2, or 4, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 17.6°2θ, 19.4°2θ, and 23.5 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

13. The compound 1 monofumarate salt of embodiment 12, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by XRPD signals at 17.6°2θ, 19 4°2θ, and 23.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

14. The compound 1 monofumarate salt of embodiment 12 or 13, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by XRPD signals at 16.7°2θ, 17 6°2θ, 19.4°2θ, 23.5°2θ, and 24.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

15. The compound 1 monofumarate salt of any one of embodiments 12 to 14, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 32.

16. The compound 1 monofumarate salt of any one of embodiments 12 to 15, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 67.

17. The compound 1 monofumarate salt of any one of embodiments 12 to 16, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by a DSC diagram having an melting signal at about 66.2° C.

18. The compound 1 monofumarate salt of any one of embodiments 12 to 17, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 208.4° C.

19. The compound 1 fumarate salt of any one of embodiments 1, 2, or 4, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from 24.0°2θ, 19.8°2θ, and 18.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

20. The compound 1 fumarate salt of embodiment 4 or 19, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 24.0°2θ, 19.8°2θ, and 18.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

21. The compound 1 fumarate salt of embodiments 19 or 20, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 18.1°2θ, 19.8°2θ, 19.9°2θ, 23.6 °2θ, and 24.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

22. The compound 1 fumarate salt of any one of embodiments 19 to 21, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 9.5°2θ, 11.9°2θ, 14.1 °2θ, 15.1°2θ, 16.8°2θ, 17.6°2θ, 18.1°2θ, 19.0°2θ, 19.8°2θ, 19.9°2θ, 23.6°2θ, 24.0°2θ, 25.7 °2θ, 28.3°2θ, 30.0°2θ, and 31.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

23. The compound 1 fumarate salt of any one of embodiments 19 to 22, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 36.

24. The compound 1 fumarate salt of any one of embodiments 4, or 19 to 23, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 70.

25. The compound 1 hemi-fumarate salt of any one of embodiments, 1, 2, or 4, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 15.8°2θ, 20.9°2θ, and 26.9 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

26. The compound 1 hemi-fumarate salt of embodiment 4 or 25, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 15.8°2θ, 20.9 °2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

27. The compound 1 hemi-fumarate salt of embodiment 25 or 26, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 15.1°2θ, 15.8 °2θ, 19.2°2θ, 20.9°2θ, and 26.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

28. The compound 1 hemi-fumarate salt of any one of embodiments 25 to 27, wherein the hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 11.5°2θ, 13.3 °2θ, 13.5°2θ, 15.1°2θ, 15.8°2θ, 18.8°2θ, 19.2°2θ, 20.9°2θ, 21.4°2θ, 22.4°2θ, 23.1°2θ, 24.0 °2θ, 24.7°2θ, 26.9°2θ, 28.2°2θ, (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

29. The compound 1 hemi-fumarate salt of any one of embodiments 25 to 28, wherein the hemi-fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 35.

30. The compound 1 hemi-fumarate salt of any one of embodiments 4 or 25 to 29 wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 7.

31. The compound 1 hemi-fumarate salt of any one of embodiments 4, or 25 to 30, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by DSC having a melting signal at about 97.2° C.

32. The compound 1 hemi-fumarate salt of any one of embodiments 4, or 25 to 31, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by DSC profile substantially similar to that shown in FIG. 60.

33. The compound 1 hemi-fumarate salt of any one of embodiments 4 or 25 to 32, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 246.4° C.

34. The compound 1 hemi-fumarate salt of any one of embodiments 4 or 25 to 33, or 20-24, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by a TGA diagram substantially similar to that shown in FIG. 59.

35. The compound 1 hemi-fumarate salt of any one of embodiments, 1, 2, or 4, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 15.9°2θ, 21.0°2θ, and 19.4 °2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

36. The compound 1 hemi-fumarate salt of embodiments 4 or 35, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 15.9°2θ, 21.0 °2θ, and 19.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

37. The compound 1 hemi-fumarate salt of embodiment 35 or 36, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 15.2°2θ, 15.9 °2θ, 19.4°2θ, 21.0°2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

38. The compound 1 hemi-fumarate salt of any one of embodiments 35 to 37, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by XRPD signals at 11.7 °2θ, 13.4°2θ, 13.7°2θ, 15.2°2θ, 15.9°2θ, 18.9°2θ, 19.4°2θ, 21.0°2θ, 21.6°2θ, 22.5°2θ, 23.2 °2θ, and 27.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

39. The compound 1 hemi-fumarate salt of any one of embodiments 35 to 38, wherein the hemi-fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 33.

40. The compound 1 hemi-fumarate salt of any one of embodiments 4 or 35 to 39 wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized by DSC having a melting signal at about 91.5° C.

41. The compound 1 hemi-fumarate salt of any one of embodiments 4 or 35 to 40, or 27-29, wherein the compound 1 hemi-fumarate salt is a crystalline polymorph characterized A TGA diagram having an onset at about 246.4° C.

42. The compound 1 fumarate salt of any one of embodiments 1, 2, or 4, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 7.9°2θ, 21.6°2θ, and 20.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

43. The compound 1 fumarate salt of any one of embodiments 1, 2, 4, or 42 wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 7.9°2θ, 21.6°2θ, and 20.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

44. The compound 1 fumarate salt of any one of embodiments 42 or 43 wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 7.9°2θ, 15.7°2θ, 20.2 °2θ, 21.6°2θ, and 23.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

45. The compound 1 fumarate salt of any one of embodiments 42 to 44 wherein the compound 1 fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 38.

46. The compound 1 fumarate salt of any one of embodiments, 1, 2, 4, or 42 to 45 wherein the compound 1 fumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 1.

47. The compound 1 fumarate salt of any one of embodiments, 1, 2, or 4, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.3°2θ, 8.2°2θ, and 20.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

48. The compound 1 fumarate salt of any one of embodiments, 1, 2, 4, or 47, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 8.2°2θ, and 20.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

49. The compound 1 fumarate salt of any one of embodiments, 47 or 48, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 8.2°2θ, 19.3°2θ, 20.2 °2θ, 21.7°2θ, and 23.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

50. The compound 1 fumarate salt of any one of embodiments, 47 to 49, wherein the compound 1 fumarate salt is a crystalline polymorph characterized by XRPD signals at 8.2°2θ, 12.3°2θ, 13.4 °2θ, 13.9°2θ, 14.9°2θ, 16.7°2θ, 17.2°2θ, 18.4°2θ, 19.3°2θ, 20.2°2θ, 20.9°2θ, 21.7°2θ, 22.4 °2θ, 23.2°2θ, 23.8°2θ, 24.4°2θ, 25.1°2θ, 26.1°2θ, 27.6°2θ, 29.1°2θ, and 29.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

51. The compound 1 fumarate salt of any one of embodiments 47 to 50 wherein the compound 1 fumarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 39.

52. The compound 1 fumarate salt of any one of embodiments 47 to 51 wherein the compound 1 fumarate salt is a crystalline polymorph characterized by an XRPD pattern substantially similar to that shown in FIG. 71.

53. The compound 1 salt of embodiment 1 or 2, wherein the salt is a HCl salt.

54. The compound 1 HCl salt of any one of embodiments 1, 2, or 53, wherein the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 18.1°2θ, 24.9°2θ, and 21.7°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

55. The compound 1 HCl salt of embodiment 53 or 54, wherein the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 18.1°2θ, 24.9°2θ, and 21.7°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

56. The compound 1 HCl salt of any one of embodiments 53 to 55, wherein the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 17.8°2θ, 18.1°2θ, 21.7°2θ, 24.9°2θ, and 29.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

57. The compound 1 HCl salt of any one of embodiments 53 to 57, wherein the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 6.4°2θ, 12.4°2θ, 13.6°2θ, 15.3°2θ, 17.6°2θ, 17.8°2θ, 18.1°2θ, 18.7°2θ, 20.0°2θ, 20.5°2θ, 21.7°2θ, 23.1°2θ, 24.9°2θ, 25.5°2θ, 25.9°2θ, 27.4°2θ, 29.0°2θ, 30.1°2θ, and 30.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

58. The compound 1 HCl salt of any one of embodiments 53 to 57, wherein the compound 1 HCl salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 41.

59. The compound 1 HCl salt of any one of embodiments 53 to 58, wherein compound 1 HCl salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 167.

60. The compound 1 HCl salt of any one of embodiments 53 to 59, wherein the compound 1 HCl salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 229.8° C.

61. The compound 1 HCl salt of any one of embodiments 53 to 60, wherein the compound 1 HCl salt is a crystalline polymorph characterized by a DSC curve that is substantially similar to that shown in FIG. 190.

62. The compound 1 HCl salt of any one of embodiments 53 to 61, wherein the compound 1 HCl salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 243.3° C.

63. The compound 1 HCl salt of any one of embodiments 53 to 62, wherein the compound 1 HCl salt is a crystalline polymorph characterized by a TGA diagram that is substantially similar to that shown in FIG. 195.

64. The compound 1 salt of embodiment 1 or 2, wherein the salt is a maleate salt.

65. The compound 1 salt of embodiment 1, 2, or 64, wherein the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 23.7°2θ, 21.6°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

66. The compound 1 maleate salt of embodiment 64 or 65, wherein the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 23.7°2θ, 21.6°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

67. The compound 1 maleate salt of any one of embodiments 64 to 66, wherein the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 19.2°2θ, 21.6°2θ, 23.7 °2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°28; Cu Kα1 radiation).

68. The compound 1 maleate salt of embodiment 64 to 67, wherein the compound 1 maleate salt is a crystalline polymorph characterized by XRPD signals at 9.4°2θ, 10.9°2θ, 11.8°2θ, 16.9 °2θ, 18.6°2θ, 19.2°2θ, 20.9°2θ, 21.6°2θ, 22.2°2θ, 23.7°2θ, 25.0°2θ, 26.0°2θ, and 26.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

69. The compound 1 maleate salt of any one of embodiments 64 to 68, wherein the compound 1 maleate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 43.

70. The compound 1 maleate salt of any one of embodiments 64 to 69, wherein compound 1 maleate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 205.

71. The compound 1 maleate salt of any one of embodiments 64 to 70, wherein compound 1 maleate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 60.2° C.

72. The compound 1 maleate salt of any one of embodiments 69 to 71, wherein the compound 1 maleate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 199.

73. The compound 1 maleate salt of any one of embodiments 69 to 72, wherein compound 1 maleate salt is a crystalline polymorph characterized by a TGA curve having an onset at about 200.0° C.

74. The compound 1 maleate salt of any one of embodiments 69 to 73, wherein compound 1 maleate salt is a crystalline polymorph characterized by a TGA curve that is substantially similar to that shown in FIG. 227.

75. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a benzoate salt.

76. The compound 1 benzoate salt of embodiment 75, wherein the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 17.5°2θ, 14.5°2θ, and 18.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

77. The compound 1 benzoate salt of embodiment 75 or 76, wherein the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 17.5°2θ, 14.5°2θ, and 18.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

78. The compound 1 benzoate salt of any one of embodiments 75 to 77, wherein the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 13.8°2θ, 14.5°2θ, 17.5°2θ, 18.6°2θ, and 19.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

79. The compound 1 benzoate salt of embodiment 75 or 78, wherein the compound 1 benzoate salt is a crystalline polymorph characterized by XRPD signals at 7.8°2θ, 12.5°2θ, 13.8°2θ, 14.5 °2θ, 15.5°2θ, 17.5°2θ, 18.6°2θ, 19.2°2θ, 19.7°2θ, 20.6°2θ, 23.7°2θ, 25.2°2θ, and 25.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

80. The compound 1 benzoate salt of any one of embodiments 75 to 79, wherein the compound 1 benzoate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 45.

81. The compound 1 benzoate salt of any one of embodiments 75 to 80, wherein compound 1 benzoate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 214.

82. The compound 1 benzoate salt of any one of embodiments 75 to 81, wherein compound 1 benzoate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 101.0° C.

83. The compound 1 benzoate salt of any one of embodiments 75 to 82, wherein the compound 1 benzoate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 208.

84. The compound 1 benzoate salt of any one of embodiments 75 to 83, wherein compound 1 benzoate salt is a crystalline polymorph characterized by a TGA curve having an onset at about 102.2° C.

85. The compound 1 benzoate salt of any one of embodiments 75 to 84, wherein compound 1 benzoate salt is a crystalline polymorph characterized by a TGA curve that is substantially similar to that shown in FIG. 213.

86. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a tosylate salt.

87. The compound 1 tosylate salt of embodiment 86, wherein the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.8°2θ, 19.5°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

88. The compound 1 tosylate salt of embodiment 86 or 87, wherein the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 19.8°2θ, 19.5°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

89. The compound 1 tosylate salt of any one of embodiments 86 to 88, wherein the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 14.5°2θ, 15.3°2θ, 19.5 °2θ, 19.8°2θ, and 25.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

90. The compound 1 tosylate salt of any one of embodiments 86 to 89, wherein the compound 1 tosylate salt is a crystalline polymorph characterized by XRPD signals at 10.3°2θ, 14.5°2θ, 15.3 °2θ, 16.3°2θ, 16.5°2θ, 18.2°2θ, 19.5°2θ, 19.8°2θ, 20.6°2θ, 20.7°2θ, 22.9°2θ, 23.3°2θ, 25.5 °2θ, 26.0°2θ, 26.2°2θ, 26.6°2θ, 29.4°2θ, and 30.3°2θ 20 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

91. The compound 1 tosylate salt of any one of embodiments 86 to 90, wherein the compound 1 tosylate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 113.

92. The compound 1 tosylate salt of any one of embodiments 86 to 91, wherein compound 1 tosylate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 170.

93. The compound 1 tosylate salt of any one of embodiments 86 to 92, wherein compound 1 tosylate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 137.7° C.

94. The compound 1 tosylate salt of any one of embodiments 86 to 93, wherein the compound 1 tosylate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 234.

95. The compound 1 tosylate salt of any one of embodiments 86 to 94, wherein compound 1 tosylate salt is a crystalline polymorph characterized by a TGA curve having a TGA curve that is substantially similar to that shown in FIG. 235.

96. The compound 1 tosylate salt of any one of embodiments 86 to 95, wherein compound 1 tosylate salt is a crystalline polymorph characterized by a TGA curve as shown in FIG. 235.

97. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a tartrate salt.

98. The compound 1 tartrate salt of embodiment 97, wherein the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 4.3°2θ, 17.5°2θ, and 19.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

99. The compound 1 tartrate salt of embodiment 97 or 98, wherein the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 17.5°28, and 19.3°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

100. The compound 1 tartrate salt of any one of embodiments 97 to 99, wherein the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 14.5°2θ, 17.5 °2θ, 19.3°2θ, and 20.1°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

101. The compound 1 tartrate salt of any one of embodiments 97 to 100, wherein the compound 1 tartrate salt is a crystalline polymorph characterized by XRPD signals at 4.3°2θ, 8.7°2θ, 13.1 °2θ, 14.5°2θ, 16.2°2θ, 16.9°2θ, 17.5°2θ, 18.7°2θ, 19.3°2θ, 20.1°2θ, 21.0°2θ, 21.8°2θ, 23.3 °2θ, 23.7°2θ, 24.8°2θ, 26.8°2θ, 27.5°2θ, 28.0°2θ, 29.1°2θ, 29.2°2θ, 29.7°2θ, 30.8°2θ, 31.8 °2θ, 33.3°2θ, 35.0°2θ, 36.1°2θ, 37.6°2θ, and 38.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

102. The compound 1 tartrate salt of any one of embodiments 97 to 101, wherein the compound 1 tartrate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 47.

103. The compound 1 tartrate salt of any one of embodiments 97 to 102, wherein compound 1 tartrate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 171.

104. The compound 1 tartrate salt of any one of embodiments 97 to 103, wherein compound 1 tartrate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 115.5° C.

105. The compound 1 tartrate salt of any one of embodiments 97 to 104, wherein the compound 1 tartrate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 238.

106. The compound 1 tartrate salt of any one of embodiments 97 to 105, wherein compound 1 tartrate salt is a crystalline polymorph characterized by a TGA curve that is substantially similar to that shown in FIG. 239.

107. The compound 1 tartrate salt of any one of embodiments 97 to 106, wherein compound 1 tartrate salt is a crystalline polymorph characterized by a TGA curve as shown in FIG. 239.

108. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is an HBr salt.

109. The compound 1 HBr salt of embodiment 108, wherein the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 21.6°2θ, 18.1°2θ, and 12.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

110. The compound 1 HBr salt of embodiment 108 or 109, wherein the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 21.6°2θ, 18.1°2θ, and 12.2°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

111. The compound 1 HBr salt of any one of embodiments 108 to 110, wherein the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 12.2°2θ, 18.1°2θ, 21.6 °2θ, 24.4°2θ, and 28.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

112. The compound 1 HBr salt of any one of embodiments 108 to 111, wherein the compound 1 HBr salt is a crystalline polymorph characterized by XRPD signals at 6.5°2θ, 12.2°2θ, 13.0 °2θ, 14.2°2θ, 17.5°2θ, 18.1°2θ, 18.4°2θ, 19.8°2θ, 20.6°2θ, 21.6°2θ, 22.9°2θ, 23.3°2θ, 23.7 °2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 26.8°2θ, 27.0°2θ, 27.5°2θ, 28.4°2θ, 28.5°2θ, 29.6°2θ, 30.1 °2θ, 33.3°2θ, and 34.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

113. The compound 1 HBr salt of any one of embodiments 108 to 112, wherein the compound 1 HBr salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 48.

114. The compound 1 HBr salt of any one of embodiments 108 to 113, wherein compound 1 HBr salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 172.

115. The compound 1 HBr salt of any one of embodiments 108 to 114, wherein compound 1 HBr salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 194.8° C.

116. The compound 1 HBr salt of any one of embodiments 108 to 115, wherein the compound 1 HBr salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 241.

117. The compound 1 HBr salt of any one of embodiments 108 to 116, wherein compound 1 HBr salt is a crystalline polymorph characterized by a TGA curve having an onset at about 253.7.

118. The compound 1 HBr salt of any one of embodiments 108 to 117, wherein compound 1 HBr salt is a crystalline polymorph characterized by a TGA curve that is substantially similar to that shown in FIG. 242.

119. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a galactarate salt.

120. The compound 1 galactarate salt of embodiment 119, wherein the compound 1 galactarate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.6°2θ, 5.2°2θ, and 15.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

121. The compound 1 galactarate salt of embodiment 119 or 120, wherein the compound 1 galactarate salt is a crystalline polymorph characterized by XRPD signals at 19.6°2θ, 5.2°2θ, and 15.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

122. The compound 1 galactarate salt of any one of embodiments 119 to 121, wherein the compound 1 galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 15.9°2θ, 17.9°2θ, 19.6°2θ, and 30.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

123. The compound 1 galactarate salt of any one of embodiments 119 to 122, wherein the compound 1 galactarate salt is a crystalline polymorph characterized by XRPD signals at 5.2°2θ, 12.1°2θ, 13.0°2θ, 15.9°2θ, 16.4°2θ, 17.9°2θ, 19.6°2θ, 20.4°2θ, 21.5°2θ, 22.4°2θ, 24.9°2θ, 25.2°2θ, 26.7°2θ, 30.7°2θ, 34.4°2θ, 34.8°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

124. The compound 1 galactarate salt of any one of embodiments 119 to 123, wherein the compound 1 galactarate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 49.

125. The compound 1 galactarate salt of any one of embodiments 119 to 124, wherein compound 1 galactarate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 173.

126. The compound 1 galactarate salt of any one of embodiments 119 to 125, wherein compound 1 galactarate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 167.5° C.

127. The compound 1 galactarate salt of any one of embodiments 119 to 126, wherein the compound 1 galactarate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 245.

128. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a succinate salt.

129. The compound 1 succinate salt of embodiment 128 wherein the compound 1 succinate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 18.2°2θ, 19.3°2θ, and 22.0°2θ (±0.2°2θ; ±0.1°2θ; or 00.0 °2θ; Cu Kα1 radiation).

130. The compound 1 succinate salt of embodiment 128 or 129, wherein the compound 1 succinate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 19.3°2θ, and 22.0°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

131. The compound 1 succinate salt of any one of embodiments 128 to 130, wherein the compound 1 succinate salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 19.3°2θ, 20.0°2θ, 22.0°2θ, and 26.1°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

132. The compound 1 succinate salt of any one of embodiments 128 to 131, wherein the compound 1 succinate salt is a crystalline polymorph characterized by XRPD signals at 12.7°2θ, 13.9°2θ, 17.3°2θ, 17.7°2θ, 18.2°2θ, 19.3°2θ, 20.0°2θ, 21.2°2θ, 21.3°2θ, 22.0°2θ, 23.7°2θ, 24.1°2θ, 24.7°2θ, 25.5°2θ, 26.1°2θ, 27.5°2θ, 28.2°2θ, and 31.4°2θ (±0.2°2θ; ±0.1°2θ; or 00.0°2θ; Cu Kα1 radiation).

133. The compound 1 succinate salt of any one of embodiments 128 to 132, wherein the compound 1 succinate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 50.

134. The compound 1 succinate salt of any one of embodiments 128 to 133, wherein compound 1 succinate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 174.

135. The compound 1 succinate salt of any one of embodiments 128 to 134, wherein compound 1 succinate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 89.8° C.

136. The compound 1 succinate salt of any one of embodiments 128 to 135, wherein the compound 1 succinate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 248.

137. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a citrate salt.

138. The compound 1 citrate salt of embodiment 137 wherein the compound 1 citrate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 23.9°2θ, 18.2°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

139. The compound 1 citrate salt of embodiment 137 or 138, wherein the compound 1 citrate salt is a crystalline polymorph characterized by XRPD signals at 23.9°2θ, 18.2°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

140. The compound 1 citrate salt of any one of embodiments 137 to 139, wherein the compound 1 citrate salt is a crystalline polymorph characterized by XRPD signals at 18.0°2θ, 18.2°2θ, 19.6 °2θ, 23.9°2θ, and 26.2°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kul radiation).

141. The compound 1 citrate salt of any one of embodiments 137 to 140, wherein the compound 1 citrate salt is a crystalline polymorph characterized by XRPD signals at 14.2°2θ, 14.4°2θ, 18.0 °2θ, 18.2°2θ, 19.6°2θ, 23.9°2θ, 26.1°2θ, 26.2°2θ, 27.6°2θ, 28.9°2θ, 31.1°2θ, 31.4°2θ, 33.7 °2θ, 36.2°2θ, 37.0°2θ, and 37.6°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

142. The compound 1 citrate salt of any one of embodiments 137 to 141, wherein the compound 1 citrate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 51.

143. The compound 1 citrate salt of any one of embodiments 137 to 142, wherein compound 1 citrate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 257.

144. The compound 1 citrate salt of any one of embodiments 137 to 143, wherein compound 1 citrate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 182.8° C.

145. The compound 1 citrate salt of any one of embodiments 137 to 144, wherein the compound 1 citrate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 258.

146. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a malate salt.

147. The compound 1 malate salt of embodiment 146 wherein the compound 1 malate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.3°2θ, 24.4°2θ, and 29.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

148. The compound 1 malate salt of embodiment 146 or 147, wherein the compound 1 malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 24.4°2θ, and 29.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

149. The compound 1 malate salt of any one of embodiments 146 to 148, wherein the compound 1 malate salt is a crystalline polymorph characterized by XRPD signals at 19.3°2θ, 21.0°2θ, 24.4 °2θ, 29.4°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

150. The compound 1 malate salt of any one of embodiments 146 to 149, wherein the compound 1 malate salt is a crystalline polymorph characterized by XRPD signals at 7.5°2θ, 19.3°2θ, 20.9 °2θ, 21.0°2θ, 22.3°2θ, 24.4°2θ, 27.7°2θ, 29.4°2θ, 29.7°2θ, 30.2°2θ, 34.1°2θ, 37.0°2θ, and 37.7°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

151. The compound 1 malate salt of any one of embodiments 146 to 150, wherein the compound 1 malate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 52.

152. The compound 1 malate salt of any one of embodiments 146 to 151, wherein compound 1 malate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 261.

153. The compound 1 malate salt of any one of embodiments 146 to 152, wherein compound 1 malate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 193.5° C.

154. The compound 1 malate salt of any one of embodiments 146 to 153, wherein the compound 1 malate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 262.

155. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a glucuronate salt.

156. The compound 1 glucuronate salt of embodiment 155 wherein the compound 1 glucuronate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 20.0°2θ, 20.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

157. The compound 1 glucuronate salt of embodiment 155 or 156, wherein the compound 1 glucuronate salt is a crystalline polymorph characterized by XRPD signals at 20.0°2θ, 20.5°2θ, and 22.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

158. The compound 1 glucuronate salt of any one of embodiments 155 to 157, wherein the compound 1 glucuronate salt is a crystalline polymorph characterized by XRPD signals at 17.7 °2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, and 24.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

159. The compound 1 glucuronate salt of any one of embodiments 155 to 158, wherein the compound 1 glucuronate salt is a crystalline polymorph characterized by XRPD signals at 15.1 °2θ, 17.7°2θ, 20.0°2θ, 20.5°2θ, 22.5°2θ, 24.4°2θ, 25.5°2θ, 26.1°2θ, 30.6°2θ, and 35.5°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

160. The compound 1 glucuronate salt of any one of embodiments 155 to 159, wherein the compound 1 glucuronate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 53.

161. The compound 1 glucuronate salt of any one of embodiments 155 to 160, wherein compound 1 glucuronate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 259.

162. The compound 1 glucuronate salt of any one of embodiments 155 to 161, wherein compound 1 glucuronate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 131.83° C.

163. The compound 1 glucuronate salt of any one of embodiments 155 to 162, wherein the compound 1 glucuronate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 260.

164. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is an ascorbate salt.

165. The compound 1 ascorbate salt of embodiment 164 wherein the compound 1 ascorbate salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 19.3°2θ, 24.4°2θ, and 29.4°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0 °2θ; Cu Kα1 radiation).

166. The compound 1 ascorbate salt of embodiment 164 or 165, wherein the compound 1 ascorbate salt is a crystalline polymorph characterized by XRPD signals at 34.8°2θ, 10.5°2θ, and 19.9°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

167. The compound 1 ascorbate salt of any one of embodiments 164 to 166, wherein the compound 1 ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 19.9°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

168. The compound 1 ascorbate salt of any one of embodiments 164 to 167, wherein the compound 1 ascorbate salt is a crystalline polymorph characterized by XRPD signals at 10.5°2θ, 16.1°2θ, 17.5°2θ, 19.9°2θ, 21.1°2θ, 25.3°2θ, 28.1°2θ, 30.1°2θ, and 34.8°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

169. The compound 1 ascorbate salt of any one of embodiments 164 to 168, wherein the compound 1 ascorbate salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 54.

170. The compound 1 ascorbate salt of any one of embodiments 164 to 169, wherein compound 1 ascorbate salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 265.

171. The compound 1 ascorbate salt of any one of embodiments 164 to 170, wherein compound 1 ascorbate salt is a crystalline polymorph characterized by a DSC curve having a melting signal at about 157° C.

172. The compound 1 ascorbate salt of any one of embodiments 164 to 171, wherein the compound 1 ascorbate salt is a crystalline polymorph characterized by a DSC that is substantially similar to FIG. 266.

173. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a sulfate salt.

174. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a mesylate salt.

175. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is an esylate salt.

176. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a phosphate salt.

177. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is a phosphate salt.

178. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is an edisylate salt.

179. The compound 1 salt of embodiment 1 or 2, wherein the compound 1 salt is an adipate salt.

180. The compound 1 monofumarate salt of any one of embodiments 1,2, or 4, wherein the compound 1 salt is a compound 1 monofumarate salt that is a crystalline polymorphic form characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 14.0°2θ, 15.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

181. The compound 1 monofumarate salt of embodiment 180, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by XRPD signals at 14.0°2θ, 15.9°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

182. The compound 1 monofumarate salt of embodiment 180 or 181, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by XRPD signals at 14.0°2θ, 15.9°2θ, 19.4°2θ, 21.3°2θ, and 22.3°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

183. The compound 1 monofumarate salt of any one of embodiments 180 to 182, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by XRPD signals at 13.4°2θ, 14.0°2θ, 15.9°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, and 22.3 °2θ (±0.2°2θ; ±0.1°28; or ±0.0°2θ; Cu Kα1 radiation).

184. The compound 1 monofumarate salt of any one of embodiments 180 to 183, wherein the compound 1 fumarate salt is a crystalline polymorphic form characterized by XRPD signals at 10.1°2θ, 13.4°2θ, 14.0°2θ, 15.6°2θ, 15.9°2θ, 18.4°2θ, 18.9°2θ, 19.2°2θ, 19.4°2θ, 20.8°2θ, 21.3°2θ, 21.5°2θ, 22.3°2θ, 23.2°2θ, 24.4°2θ, 25.0°2θ, 28.1°2θ, and 29.1°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

185. The compound 1 monofumarate salt of any one of embodiments 180 to 184, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by any combination of the XRPD signals in Table 6.

186. The compound 1 monofumarate salt of any one of embodiments 180 to 185, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by the XRPD signals in Table 6 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

187. The compound 1 monofumarate salt of any one of embodiments 180 to 186, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by an XRPD pattern substantially similar to that shown in FIG. 8.

188. The compound 1 monofumarate salt of any one of embodiments 180 to 187, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by a DSC diagram having melting signals at about 116.8° C. and 241.3° C.

189. The compound 1 monofumarate salt of any one of embodiments 180 to 188, wherein the compound 1 monofumarate salt is a crystalline polymorphic form characterized by a DSC profile substantially similar to that shown in FIG. 86.

190. The compound 1 monofumarate salt of any one of embodiments 180 to 189, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by a TGA diagram having an onset at about 210.71° C.

191. The compound 1 monofumarate salt of any one of embodiments 180 to 190, wherein the compound 1 monofumarate salt is a crystalline polymorph characterized by a TGA diagram substantially similar to that shown in FIG. 81.

192. The compound 1 HCl salt of any one of embodiments 1, 2, or 53, wherein the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at two signals or more, or three signals selected from the group consisting of 18.2°2θ, 25.0°28, and 26.0°2θ (±0.2°2θ; ±0.1 °2θ; or ±0.0°2θ; Cu Kα1 radiation).

193. The compound 1 HCl salt of embodiment 192, wherein the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 18.2°2θ, 25.0°2θ, and 26.0°2θ (±0.2 °2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

194. The compound 1 HCl salt of any one of embodiments 192 or 193, wherein the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 12.9°2θ, 18.2°2θ, 21.9 °2θ, 25.0°2θ, and 26.0°2θ (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

195. The compound 1 HCl salt of any one of embodiments 192 to 194, wherein the compound 1 HCl salt is a crystalline polymorph characterized by XRPD signals at 6.4°2θ, 6.5°2θ, 12.5°2θ, 12.9°2θ, 17.8°2θ, 18.0°2θ, 18.2°2θ, 18.8°2θ, 20.1°2θ, 20.6°2θ, 21.9°2θ, 23.2°2θ, 25.0°2θ, 25.6°2θ, 26.0°2θ, 27.6°2θ, 28.6°2θ, 29.1°2θ, 32.4°2θ, 34.6°2θ, and 37.8 (±0.2°2θ; ±0.1°2θ; or ±0.0°2θ; Cu Kα1 radiation).

196. The compound 1 HCl salt of any one of embodiments 192 to 195, wherein the compound 1 HCl salt is a crystalline polymorph characterized by any combination of the XRPD signals contained in Table 124.

197. The compound 1 HCl salt of any one of embodiments 192 to 196, wherein compound 1 HCl salt is a crystalline polymorph characterized by an XRPD pattern that is substantially similar to that shown in FIG. 365.

198. The compound 1 salt of any one of embodiments 1, 2, or 4, wherein the compound 1 salt is an amorphous compound 1 fumarate salt characterized by a glass temperature (Tg) of about 24° C.

199. The compound 1 salt of embodiment 198, wherein the amorphous compound 1 fumarate salt is characterized by a XRPD pattern that is substantially similar to that shown in FIG. 379 or 390.

200. The compound 1 salt of embodiment 198 or 199, wherein the amorphous compound 1 fumarate salt is characterized by a DSC profile that is substantially similar to that shown in any one of FIGS. 381 to 384.

201. The compound 1 salt of any one of embodiments 198 to 200, wherein the amorphous compound 1 fumarate salt is characterized by a TGA profile that is substantially similar to that shown in any one of FIGS. 385 to 388.

202. The compound 1 salt of any one of embodiments, 198 to 201, wherein the amorphous compound 1 fumarate salt is characterized by a ¹H NMR spectrum that is substantially similar to that shown in FIG. 380.

203. The compound 1 salt of any one of embodiments 1, 2, or 53, wherein the compound 1 salt is an amorphous compound 1 HCl salt characterized by a Tg of about 37° C.

204. The compound 1 salt of embodiment 203, wherein the amorphous compound 1 HCl salt is characterized by a XRPD pattern that is substantially similar to that shown in FIG. 369.

205. The compound 1 salt of embodiment 203 or 204, wherein the amorphous compound 1 HCl salt is characterized by a DSC profile that is substantially similar to that shown in any one of FIGS. 370 to 373.

206. The compound 1 salt of any one of embodiments 203 to 205, wherein the amorphous compound 1 HCl salt is characterized by a TGA profile that is substantially similar to that shown in any one of FIGS. 374 to 377.

207. The compound 1 salt of any one of embodiments 203 to 206, wherein the amorphous compound 1 HCl salt is characterized by a ¹H NMR spectrum that is substantially similar to that shown in FIG. 368.

208. A pharmaceutical composition comprising the compound 1 salt of any one of embodiments 1-208 and a pharmaceutically acceptable excipient.

209. A method of treating a brain disorder, a neurological disorder and/or a psychiatric disorder in a subject in need, comprising administering to the subject a salt of any one of embodiments 1 to 208 or the pharmaceutical composition of embodiment 208.

210. Use of the compound 1 salt of any one of embodiments 1-208 in the preparation of a medicament for the treatment of a brain disorder, a neurological disorder and/or a psychiatric disorder in a subject in need thereof.

211. A compound of any one of embodiments 1-208 for use in the treatment of a brain disorder, a neurological disorder and/or a psychiatric disorder in a subject in need thereof.

Claims

1. A (R)-1-(5-methoxy-1H-indol-1-yl)-N,N-dimethylpropan-2-amine, compound 1) salt.

2. The compound 1 salt of claim 1, wherein the salt is crystalline.

3. The compound 1 salt of claim 1, wherein the salt is amorphous.

4. The compound 1 salt of claim 1, wherein the salt is a fumarate, monofumarate salt or hemi-fumarate salt.

5.-69. (canceled)

70. The compound 1 salt of claim 1, wherein the salt is a HCl salt.

71.-91. (canceled)

92. The compound 1 salt of claim 1, wherein the salt is a maleate salt.

93.-102. (canceled)

103. The compound 1 salt of claim 1, wherein the compound 1 salt is a benzoate salt.

104.-113. (canceled)

114. The compound 1 salt of claim 1, wherein the compound 1 salt is a tosylate salt.

115.-124. (canceled)

125. The compound 1 salt of claim 1, wherein the compound 1 salt is a tartrate salt.

126.-135. (canceled)

136. The compound 1 salt of claim 1, wherein the compound 1 salt is an HBr salt.

137.-146. (canceled)

147. The compound 1 salt of claim 1, wherein the compound 1 salt is a galactarate salt.

148.-155. (canceled)

156. The compound 1 salt of claim 1, wherein the compound 1 salt is a succinate salt.

157.-164. (canceled)

165. The compound 1 salt of claim 1, wherein the compound 1 salt is a citrate salt.

166.-173. (canceled)

174. The compound 1 salt of claim 1, wherein the compound 1 salt is a malate salt.

175.-182. (canceled)

183. The compound 1 salt of claim 1, wherein the compound 1 salt is a glucuronate salt.

184.-191. (canceled)

192. The compound 1 salt of claim 1, wherein the compound 1 salt is an ascorbate salt.

193.-200. (canceled)

201. The compound 1 salt of claim 1, wherein the compound 1 salt is a sulfate salt.

202. The compound 1 salt of claim 1, wherein the compound 1 salt is a mesylate salt.

203. The compound 1 salt of claim 1, wherein the compound 1 salt is an esylate salt.

204. The compound 1 salt of claim 1, wherein the compound 1 salt is a phosphate salt.

205. (canceled)

206. The compound 1 salt of claim 1, wherein the compound 1 salt is an edsylate salt.

207. The compound 1 salt of claim 1, wherein the compound 1 salt is an adipate salt.

208. A pharmaceutical composition comprising the compound 1 salt of claim 1 and a pharmaceutically acceptable excipient.

209. A method of treating a brain disorder, a neurological disorder and/or a psychiatric disorder in a subject in need, comprising administering to the subject a salt of claim 1.

210-211. (canceled)