Abstract: De-ethylflavopereirine, a pharmaceutically acceptable salt thereof, a solvate or a hydrate thereof, or a pharmaceutically acceptable salt of a solvate or a hydrate thereof may be used as cancer therapy (i.e., prevention and/or treatment) in a subject in need thereof, including a pathological condition such as inflammation, especially chronic, or cancer (e.g., a carcinoma, a sarcoma, a melanoma, a leukemia, a lymphoma), especially a solid tumor and/or a metastasis thereof. In particular, systemic administration of such improved anti-cancer agents in effective amounts may selectively destroy cancer cells (including cancer stem cells) in a solid tumor and/or at a site of metastasis. They are well-tolerated by the subject, even at large systemic doses and their resulting high concentrations in the circulation, and provide safe and effective anti-cancer agents.
Abstract: De-ethylflavopereirine, a pharmaceutically acceptable salt thereof, a solvate or a hydrate thereof, or a pharmaceutically acceptable salt of a solvate or a hydrate thereof may be used as cancer therapy (i.e., prevention and/or treatment) in a subject in need thereof, including a pathological condition such as inflammation, especially chronic, or cancer (e.g., a carcinoma, a sarcoma, a melanoma, a leukemia, a lymphoma), especially a solid tumor and/or a metastasis thereof. In particular, systemic administration of such improved anti-cancer agents in effective amounts may selectively destroy cancer cells (including cancer stem cells) in a solid tumor and/or at a site of metastasis. They are well-tolerated by the subject, even at large systemic doses and their resulting high concentrations in the circulation, and provide safe and effective anti-cancer agents.
Abstract: This invention provides therapeutic treatments that prevent or ameliorate thrombocytopenia based on administration of small RNA fragments. More specifically, this invention provides an improved chemotherapeutic regimen that prevents or ameliorates bone marrow suppression and thrombocytopenia induced by anti-cancer drugs, wherein the chemotherapeutic regimen incorporates administration of small RNA fragments. Further, the present invention provides a therapeutic treatment for thrombocytopenia associated with immune disorders known as Immune Thrombocytopenic Purpura based on administration of small RNA fragments.
Abstract: This invention provides therapeutic treatments that prevent or ameliorate thrombocytopenia based on administration of small RNA fragments. More specifically, this invention provides an improved chemotherapeutic regimen that prevents or ameliorates bone marrow suppression and thrombocytopenia induced by anti-cancer drugs, wherein the chemotherapeutic regimen incorporates administration of small RNA fragments. Further, the present invention provides a therapeutic treatment for thrombocytopenia associated with immune disorders known as Immune Thrombocytopenic Purpura based on administration of small RNA fragments.