Abstract: Disclosed herein relates to compositions of and methods for the treatment of skin damage and/or wounds, while simultaneously relieving pain and/or cosmetic damage. As such, the present disclosure relates to an anhydrous topical composition for retarding and/or inhibiting scarring of a wound, burn and/or skin condition located on the skin of a subject while retaining a natural characteristic and/or elasticity of the skin. The anhydrous topical composition may comprise MCT, monolaurin, cetyl esters, marine oil, vegetable oil having an omega 3 fatty acid content greater than 9 wt %, and/or hempseed oil. Additionally, the anhydrous topical composition may comprise antimicrobial properties and/or characteristics, such that the anhydrous topical composition may be configured to inhibit any pathogen (e.g., a bacteria, a virus, a fungus, etc.) within the wound, burn and/or skin condition, when applied to the skin of the subject.

Abstract: IT-139, sodium trans-[tetrachlorobis(lH-indazole)ruthenate(III)], is an intravenously administered small molecule compound. In preclinical anti-tumor and mechanism of action studies, IT-139 showed activity against a broad range of tumor types, including those which are resistant to standard anti-cancer agents (e.g., platinums, vinca alkaloids, taxanes, anthracyclines). This activity is believed to arise from 1T-139's novel mechanism of action that targets the GRP78 pathway. It was found that up-regulation of GRP78 is a key cancer cell survival pathway. Downregulation of GRP78 using IT-139 removes this resistance pathway allowing for chemo-therapy and immuno-oncology agents to be more effective in treating cancer.

Abstract: IT-139, sodium trans-[tetrachlorobis(1H-indazole)ruthenate(III)], is an intravenously administered small molecule compound. In preclinical anti-tumor and mechanism of action studies, IT-139 showed activity against a broad range of tumor types, including those which are resistant to standard anti-cancer agents (e.g., platinums, vinca alkaloids, taxanes, anthracyclines). This activity is believed to arise from IT-139's novel mechanism of action that targets the GRP78 pathway. It was found that up-regulation of GRP78 is a key cancer cell survival pathway. Downregulation of GRP78 using IT-139 removes this resistance pathway allowing for chemotherapy and immuno-oncology agents to be more effective in treating cancer.

Abstract: IT-139, sodium trans-[tetrachlorobis(1H-indazole)ruthenate(III)], is an intravenously administered small molecule compound. In preclinical anti-tumor and mechanism of action studies, IT-139 showed activity against a broad range of tumor types, including those which are resistant to standard anti-cancer agents (e.g., platinums, vinca alkaloids, taxanes, anthracyclines). This activity is believed to arise from IT-139's novel mechanism of action that targets the GRP78 pathway. It was found that up-regulation of GRP78 is a key cancer cell survival pathway. Downregulation of GRP78 using IT-139 removes this resistance pathway allowing for chemotherapy and immuno-oncology agents to be more effective in treating cancer.

Abstract: IT-139, sodium trans-[tetrachlorobis(1H-indazole)ruthenate(III)], is an intravenously administered small molecule compound. In preclinical anti-tumor and mechanism of action studies, IT-139 showed activity against a broad range of tumor types, including those which are resistant to standard anti-cancer agents (e.g., platinums, vinca alkaloids, taxanes, anthracyclines). This activity is believed to arise from IT-139's novel mechanism of action that targets the GRP78 pathway. It was found that up-regulation of GRP78 is a key cancer cell survival pathway. Downregulation of GRP78 using IT-139 removes this resistance pathway allowing for chemotherapy and immuno-oncology agents to be more effective in treating cancer.

Abstract: IT-139, sodium trans-[tetrachlorobis(1H-indazole)ruthenate(III)], is an intravenously administered small molecule compound. In preclinical anti-tumor and mechanism of action studies, IT-139 showed activity against a broad range of tumor types, including those which are resistant to standard anti-cancer agents (e.g., platinums, vinca alkaloids, taxanes, anthracyclines). This activity is believed to arise from IT-139's novel mechanism of action that targets the GRP78 pathway. It was found that up-regulation of GRP78 is a key cancer cell survival pathway. Downregulation of GRP78 using IT-139 removes this resistance pathway allowing for chemotherapy and immuno-oncology agents to be more effective in treating cancer.

Abstract: Disclosed are methods for treating, preventing or inhibiting tumor cell metastasis, tumor cell formation, and destroying tumors in a subject comprising administering to the subject in need of such therapy a therapeutically effective amount of an activated aIIb?3 receptor antagonist and by transplanting affected bone marrow with ?3?/?marrow or controlling the expression of ?3 integrin in vitro or in vivo. The activated allb?3 receptor antagonist is preferably a spiro compound.