The invention provides methods for treating various conditions using derivatives of cyclopamine having the following formula:

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The present invention is directed to compositions and methods for the treatment of cancers, particularly cancers of epithelial origin. Therapy with a plurality of nutraceutical, non-chemotherapeutic and chemotherapeutic agents, that together target a plurality of cancer-supportive processes in a patient are disclosed. Among other things, the present invention encompasses the insight that redundant targeting of multiple such pathways provides effective treatment of various cancer, including late-stage cancers, metastasized cancers, and/or cancers that have failed treatment with traditional chemotherapy and/or other therapeutic modalities.

The present invention is directed to compositions and methods for the treatment of cancers, particularly cancers of epithelial origin. Therapy with a plurality of nutraceutical, non-chemotherapeutic and chemotherapeutic agents, that together target a plurality of cancer-supportive processes in a patient are disclosed. Among other things, the present invention encompasses the insight that redundant targeting of multiple such pathways provides effective treatment of various cancer, including late-stage cancers, metastasized cancers, and/or cancers that have failed treatment with traditional chemotherapy and/or other therapeutic modalities.

The disclosure provides methods of treating a tumor/cancer by administering naltrexone or an analogue thereof, followed by a recovery phase, and then administering a small molecule signaling inhibitor such as PI3-kinase inhibitors, AKT inhibitors, taxanes, antimetabolites, alkylating agents and/or cell cycle inhibitors. The disclosure also provides diagnostic methods for assessing a therapeutic response to the methods of treatment.

The disclosure provides methods of treating a tumor/cancer by administering naltrexone or an analogue thereof, followed by a recovery phase, and then administering a small molecule signaling inhibitor such as PI3-kinase inhibitors, AKT inhibitors, taxanes, antimetabolites, alkylating agents and/or cell cycle inhibitors. The disclosure also provides diagnostic methods for assessing a therapeutic response to the methods of treatment.

Described herein are formulations that transition from a liquid state to a solid state for use in the embolization of arteriovenous malformations (AVM's) and solid tumors.

Described herein are formulations that transition from a liquid state to a solid state for use in the embolization of arteriovenous malformations (AVM's) and solid tumors.

Methods of generating an isolated population of non-graft versus host disease (GVHD) inducing cells comprising a central memory T-lymphocyte (Tcm) phenotype, the cells being tolerance inducing cells and/or endowed with anti-disease activity, and capable of homing to the lymph nodes following transplantation, are disclosed. Cells generated by the methods, pharmaceutical compositions and methods of treatment are also disclosed.

Methods of generating an isolated population of non-graft versus host disease (GVHD) inducing cells comprising a central memory T-lymphocyte (Tcm) phenotype, the cells being tolerance inducing cells and/or endowed with anti-disease activity, and capable of homing to the lymph nodes following transplantation, are disclosed. Cells generated by the methods, pharmaceutical compositions and methods of treatment are also disclosed.

Disclosed herein are methods for treating a cancer comprising: a. administering a Btk inhibitor to a subject sufficient to result in an increase or appearance in the blood of a subpopulation of lymphocytes defined by immunophenotyping; b. determining the expression profile of one or more biomarkers from one or more subpopulation of lymphocytes; and c. administering a second agent based on the determined expression profile.