Abstract: Provided are compounds and compositions of general Formula IX: E1-L-Ar—X-PA, that may be utilized in bioconjugation procedures, where Ar is a chromophore and PA is a functional group capable of being attached to any bioactive molecule of interest. The present invention provides Formulas I-III that are capable of being attached to a bioactive vector for the selective delivery of said photoactive pyrazine derivatives to a desired biological target.

Abstract: Novel azo, azide, and sulfenate photoactive compounds and methods using the compounds for photodiagnostic and/or phototherapeutic procedures. The compounds have the formula E-L-DYE-X—Y, wherein DYE is a photoactive component comprising a photoactive diagnostic agent, a photoactive type 1 agent, a photoactive type 2 agent, or a combination thereof; Y is a photoactive component comprising a photoactive type 1 agent, a photoactive type 2 agent, or a combination thereof; E is a targeting component for targeting the compound to an anatomical and/or physiological site of a patient; L is a linking component for linking E to DYE; and X is a linking component for linking DYE to Y.

Abstract: The present invention relates to pyrazine derivatives such as those represented by Formulas I and II. X1 to X4 of Formulas I and II may be characterized as electron withdrawing groups, while Y1 to Y4 of Formulas I and II may be characterized as electron donating groups. Pyrazine derivatives of the present invention may be utilized in assessing organ (e.g., kidney) function. In a particular example, an effective amount of a pyrazine derivative that is capable of being renally cleared may be administered into a patient's body. The pyrazine derivative may capable of one or both absorbing and emanating spectral energy of at least about 400 nm (e.g., visible and/or infrared light). At least some of the derivative that is in the body may be exposed to spectral energy and, in turn, spectral energy may emanate from the derivative. This emanating spectral energy may be detected and utilized to determine renal function of the patient.

Abstract: Disclosed herein are pyrazine derivatives of Formula I: Formula I; wherein each of X1 and X2 is independently —CONR7R9; and each of Y1 and Y2 is independently —NR48R49; and methods of using the same. The disclosed pyrazine derivatives include those having urea, amide, sulfonamide, thiourea, and/or carbamate substituents. Among the various aspects of the present invention are pyrazine derivatives that may be detected in vivo and used in a number of medical procedures (e.g., renal function monitoring). Without being bound by a particular theory, the pyrazine derivatives described herein may be designed to be hydrophilic, thus allowing for rapid renal clearance for continuous monitoring of renal function.

Abstract: This invention is directed to the general method of transforming non-photoactive bioactive small molecule compounds of known structure and function into photoactive analogs of the small molecules which exhibit both photoactivity and the original biological targeting activity. The general method for the design of the photoactive analogs of the small molecules includes: (a) selecting a desired bioactive molecule; (b) identifying the region of the molecule that contains an aromatic or a heteroaromatic motif; and (c) either replacing said motif with a photoactive functional group of similar size, or modifying said motif to make it photoactive. Other aspects include photoactive analog compounds and photodiagnostic and phototherapeutic uses thereof.

Abstract: The invention relates generally to optical agents and methods of using optical agents for biomedical applications, including phototherapy. Provided are methods of using diarylamino compounds having a fused ring backbone providing phototherapeutic agents, including Type 1 phototherapeutic agents. Optical agents of the invention enable a versatile phototherapy platform for treatment of a range of pathological conditions, including the treatment of cancers, stenosis and inflammation. The invention further provides preparations and formulations comprising the diarylamino optical agents and related methods of making and using diarylamino optical agents in an in vivo or ex vivo biomedical procedure.

Abstract: This invention is directed to non-benzenoid aromatic compounds. Other aspects include methods of using non-benzenoid aromatic compounds for imaging and phototherapeutic uses thereof. Non-benzenoid compounds provided herein generally have one or more substituent groups which allow tailoring of the spectral properties or provide photoreactivity or targeting ability.

Abstract: Provided are compounds and compositions of general Formula IX: E1-L-Ar-X-PA, that may be utilized in bioconjugation procedures, where Ar is a chromophore and PA is a functional group capable of being attached to any bioactive molecule of interest. The present invention provides Formulas I-III that are capable of being attached to a bioactive vector for the selective delivery of said photoactive pyrazine derivatives to a desired biological target.

Abstract: The invention relates generally to anti-angiogenesis agents and related methods of using to anti-angiogenesis agents for biomedical applications including direct monotherapy and combination therapy for treatment of an angiogenesis related condition. In an embodiment, the invention provides a class of opioid compounds and structurally related opioid derivatives exhibiting anti-VEGF activity for use in therapeutic procedures, including phototherapy. Opioid compounds and structurally related opioid derivatives of the invention may be administered alone or in combination with administration of a phototherapy agent and/or other therapeutic agent.

Abstract: The present invention relates to pyrazine derivatives such as those represented by Formulas I and II below. X1 to X4 of the compounds of Formulas I and II may be characterized as electron withdrawing groups. In contrast, Y1 to Y4 of the compounds of Formulas I and II may be characterized as electron donating groups. Pyrazine derivatives of the present invention may be utilized in assessing renal function. In particular, an effective amount of a pyrazine derivative of the invention may be administered into a body of a patient. The pyrazine derivative that is in the body may be exposed to visible and/or infrared light to cause spectral energy to emanate from the pyrazine derivative. This emanating spectral energy may be detected and utilized to determine renal function of the patient.

Abstract: The invention relates generally to optical agents, including phototherapeutic agents, for biomedical applications, including phototherapy. The invention includes optical agents, and related therapeutic methods, comprising alicyclic diaza compounds, including 1,2 diaza heterocyclic compounds, having a photolabile N—N bond directly or indirectly linked to at least one carbocyclic aromatic and/or heterocyclic aromatic group. In some embodiments, for example, the invention provides alicyclic diaza compounds for phototherapeutic methods having a photolabile N—N bond that undergoes photoactivated cleavage to produce reactive species, such as radicals, ions, etc., that achieve a desired therapeutic effect, such as selective and/or localized tissue damage and/or cell death.

Abstract: The invention relates generally to optical agents for biomedical applications, including phototherapy. The invention includes optical agents, and related therapeutic methods, comprising compounds with an acyclic N—N bond having at least one aromatic and/or heterocyclic aromatic group providing phototherapeutic agents, including Type 1 phototherapeutic agents. In some embodiments, for example, the invention provides compounds for phototherapeutic methods having one or more photolabile acyclic N—N bonds capable of undergoing photoactivated cleavage to produce reactive species, such as radicals, ions, etc., that achieve a desired therapeutic effect, such as selective and/or localized tissue damage and/or cell death.

Abstract: The present invention provides tissue sealant compositions and vasculature closure devices useful for the optical detection of tissue seal and/or clot formation. Compositions and devices of the present invention comprise optical dyes which undergo an observable change as the compositions and/or devices are incorporated into a tissue seal and/or clot, for example a change in fluorescence quantum yield and/or a change in visual color including a change in emission and/or absorption wavelength. Tissue sealants and vasculature closure devices of the present invention are useful for visualizing seal and/or clot formation, for example, during or after surgical procedures, after catheter removal, etc. The present invention further provides methods for formation and optical detection of tissue seals or vasculature puncture closures as well as medical kits useful for the formation and optical detection of tissue seals or vasculature puncture closures.

Abstract: The present invention relates to pyrazine derivatives such as those represented by Formulas (I) and (II) below. X1 to X4 of the compounds of Formulas I and II may be characterized as electron withdrawing groups. In contrast, Y1 to Y4 of the compounds of Formulas I and II may be characterized as electron donating groups. Pyrazine derivatives of the present invention may be utilized in assessing renal function. In particular, an effective amount of a pyrazine derivative of the invention may be administered into a body of a patient. The pyrazine derivative that is in the body may be exposed to visible and/or infrared light to cause spectral energy to emanate from the pyrazine derivative. This emanating spectral energy may be detected and utilized to determine renal function of the patient.

Abstract: The invention relates generally to optical agents for biomedical applications, including phototherapy. Provided are disulfide compounds having an acyclic S—S bond with at least one aromatic and/or heterocyclic aromatic group providing phototherapeutic agents, including Type 1 phototherapeutic agents. Optical agents of the invention enable a versatile phototherapy platform for treatment of a range of pathological conditions, including the treatment of cancers, stensosis and inflammation. The invention further provides preparations and formulations comprising the disulfide optical agents and related methods of making and using disulfide optical agents in an in vivo or ex vivo biomedical procedure.

Abstract: The invention relates generally to optical agents, including Type 1 phototherapeutic agents, for biomedical applications, such as phototherapy. Provided are fused ring azo and diaza compounds comprising a plurality of fused rings including a first ring having an intra-ring azo or intra-ring diaza group capable of activation upon exposure to electromagnetic radiation in visible and/or infrared regions of the electromagnetic spectrum. Optical agents of the invention enable a versatile phototherapy platform for treatment of a range of pathological conditions, including the treatment of cancers, stenosis and inflammation. The invention further provides preparations and formulations comprising the fused ring azo and diaza compounds and methods of making and using the fused ring azo and diaza compounds as optical agents in in vivo or ex vivo biomedical procedures.

Abstract: Thiadiazole compounds, compositions, bioconjugates, and methods for targeting and photoactivation at target sites.

Abstract: The invention provides optical agents, including compositions, preparations and formulations, and methods of using and making optical agents. Optical agents of the present invention include oligomer dyes, and derivatives thereof, having a fused ring backbone structure having an oligothiophene core. In some embodiments, oligomer dyes of the present invention are fused ring thiophene dyes having an oligothiophene core comprising a plurality of fused thiophene, thiophene-oxide, and/or thiophene-dioxide rings, optionally functionalized to provide useful optical, biological, pharmacokinetic and/or physical properties. The compounds are dithieno[3,2-b;2?,3?-d]thiophene derivatives.

Abstract: The invention provides optical agents, including compositions, preparations and formulations, and methods of using and making optical agents. Optical agents of the present invention include dyes, and derivatives thereof, having a fused ring backbone structure having dithienofuran core. In some embodiments, dyes of the present invention are dithienofuran dyes having a dithienofuran core optionally functionalized to provide useful optical, biological, pharmacokinetic and/or physical properties.

Abstract: The invention provides optical agents, including compositions, preparations and formulations, and methods of using and making optical agents. Optical agents of the present invention include dyes, and derivatives thereof, having a fused ring backbone structure having dithienopyrrole core. In some embodiments, dyes of the present invention are dithienopyrrole dyes having a dithienopyrrole core optionally functionalized to provide useful optical, biological, pharmacokinetic and/or physical properties.