Abstract: A liposomal composition (“ADx-003”) is provided, ADx-003 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand, the targeting ligand being represented by Formula I: wherein X is —CH2—, —CH2—CH2—, —CHO—, or —O—CO—; Y is —CH—CH?CH— or A and B are independently selected from C and N; R1, R2, R3, and R4 are independently selected from —H, halogen, —OH, and —CH3; and R5, R6, and R7 are independently selected from —H, halogen, —OH, —OCH3, —NO2, —N(CH3)2, C1-C6 alkyl, or a substituted or unsubstituted C4-C6 aryl group, except that when A and/or B is N the adjacent R5 and/or R7 is —H, or a pharmaceutically acceptable salt thereof.

Abstract: A liposomal composition (“ADx-003”) is provided, ADx-003 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand, the targeting ligand being represented by Formula I: wherein X is —CH2—, —CH2—CH2—, —CHO—, or —O—CO—; Y is —CH—CH?CH— or A and B are independently selected from C and N; R1, R2, R3, and R4 are independently selected from —H, halogen, —OH, and —CH3; and R5, R6, and R7 are independently selected from —H, halogen, —OH, —OCH3, —NO2, —N(CH3)2, C1-C6 alkyl, or a substituted or unsubstituted C4-C6 aryl group, except that when A and/or B is N the adjacent R5 and/or R7 is —H, or a pharmaceutically acceptable salt thereof.

Abstract: Phospholipid-polymer-aromatic conjugates comprising binding ligands, liposome compositions including the phospholipid-polymer-aromatic conjugates, and binding ligands having an affinity for misfolded proteins are described. The phospholipid-polymer-aromatic conjugate may be represented by Structural Formula I: PL-AL-HP-X-BL (I). In Formula I, PL is a phospholipid, AL is an aliphatic linkage, HP is hydrophilic polymer, X is a link between the phospholipid-polymer and the binding ligand, and BL is polycyclic aromatic compound that functions as a binding ligand. The liposomal compositions may be useful for the imaging of misfolded and/or aggregated proteins.

Abstract: Methods and compositions for detecting tau pathology are described. The compositions for detecting tau pathology comprise a targeting ligand that specifically binds to a cell surface marker of tau pathology, wherein the targeting ligand is linked to a liposome that includes an imaging agent. The compositions can be used in a method for imaging tau pathology in a subject that comprises administering to the subject an effective amount of the composition to a subject and imaging at least a portion of the subject to determine if that portion of the subject exhibits tau pathology. The compositions can also be used to detect tau pathology in biological samples obtained from a subject.

Abstract: Methods and compositions for detecting tau pathology are described. The compositions for detecting tau pathology comprise a targeting ligand that specifically binds to a cell surface marker of tau pathology, wherein the targeting ligand is linked to a liposome that includes an imaging agent. The compositions can be used in a method for imaging tau pathology in a subject that comprises administering to the subject an effective amount of the composition to a subject and imaging at least a portion of the subject to determine if that portion of the subject exhibits tau pathology. The compositions can also be used to detect tau pathology in biological samples obtained from a subject.

Abstract: A liposomal composition (“ADx-003”) is provided, ADx-003 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand, the targeting ligand being represented by Formula I: wherein X is —CH2—, —CH2—CH2—, —CHO—, or —O—CO—; Y is —CH—CH?CH— or A and B are independently selected from C and N; R1, R2, R3, and R4 are independently selected from —H, halogen, —OH, and —CH3; and R5, R6, and R7 are independently selected from —H, halogen, —OH, —OCH3, —NO2, —N(CH3)2, C1-C6 alkyl, or a substituted or unsubstituted C4-C6 aryl group, except that when A and/or B is N the adjacent R5 and/or R7 is —H, or a pharmaceutically acceptable salt thereof.

Abstract: A liposomal composition (“ADx-003”) is provided, ADx-003 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand, the targeting ligand being represented by Formula I: wherein X is —CH2—, —CH2—CH2—, —CHO—, or —O—CO—; Y is —CH—CH?CH— or A and B are independently selected from C and N; R1, R2, R3, and R4 are independently selected from —H, halogen, —OH, and —CH3; and R5, R6, and R7 are independently selected from —H, halogen, —OH, —OCH3, —NO2, —N(CH3)2, C1-C6 alkyl, or a substituted or unsubstituted C4-C6 aryl group, except that when A and/or B is N the adjacent R5 and/or R7 is —H, or a pharmaceutically acceptable salt thereof.

Abstract: Methods and compositions for detecting tau pathology are described. The compositions for detecting tau pathology comprise a targeting ligand that specifically binds to a cell surface marker of tau pathology, wherein the targeting ligand is linked to a liposome that includes an imaging agent. The compositions can be used in a method for imaging tau pathology in a subject that comprises administering to the subject an effective amount of the composition to a subject and imaging at least a portion of the subject to determine if that portion of the subject exhibits tau pathology. The compositions can also be used to detect tau pathology in biological samples obtained from a subject.

Abstract: Phospholipid-polymer-aromatic conjugates comprising binding ligands, liposome compositions including the phospholipid-polymer-aromatic conjugates, and binding ligands having an affinity for misfolded proteins are described. The phospholipid-polymer-aromatic conjugate may be represented by Structural Formula I: PL-AL-HP-X-BL (I). In Formula I, PL is a phospholipid, AL is an aliphatic linkage, HP is hydrophilic polymer, X is a link between the phospholipid-polymer and the binding ligand, and BL is polycyclic aromatic compound that functions as a binding ligand. The liposomal compositions may be useful for the imaging of misfolded and/or aggregated proteins.

Abstract: A system for creation of perspective images of the present invention includes: A new method for transforming three-dimensional (3D) world coordinates into two-dimensional (2D) screen coordinates using a negative exponential algorithm, instead of the classical projection algorithms that have the distance ‘z’ to the observer in the denominator (division algorithms); A new method for generating realistic perspective images of objects located at any distance from the observer (positive, negative or zero distances) that does not need any correction for zero or negative distances; The demonstration of practical use of the invention by computer graphics programs that generates and displays perspective images based on this exponential algorithm.

Abstract: A system for creation of perspective images of the present invention includes: A new method for transforming three-dimensional (3D) world coordinates into two-dimensional (2D) screen coordinates using a negative exponential algorithm, instead of the classical projection algorithms that have the distance ‘z’ to the observer in the denominator (division algorithms); A new method for generating realistic perspective images of objects located at any distance from the observer (positive, negative or zero distances) that does not need any correction for zero or negative distances; The demonstration of practical use of the invention by computer graphics programs that generates and displays perspective images based on this exponential algorithm.