Abstract: Devices, methods, systems and procedures for localized, targeted treatment of angiogenic-based therapy in at least one region of interest in one or more layers of cardiac tissue. Various methods can include diagnosing a patient with ischemic heart disease or “at-risk” of manifesting ischemic heart disease, placing the patient into a specific angiogenic-based treatment therapy group, collecting image data, confirming image data and other diagnostic test results, developing a preoperative plan to target region of interest, inserting the catheter into a heart chamber, monitoring the distal end of the catheter tip within the heart on a visual display, contacting at least one layer of cardiac tissue, creating one or more channels in the heart tissue and/or administering the angiogenic-based therapy.

Abstract: Devices, methods, systems and procedures for localized, targeted treatment of angiogenic-based therapy in at least one region of interest in one or more layers of cardiac tissue. Various methods can include diagnosing a patient with ischemic heart disease or “at-risk” of manifesting ischemic heart disease, placing the patient into a specific angiogenic-based treatment therapy group, collecting image data, confirming image data and other diagnostic test results, developing a preoperative plan to target region of interest, inserting the catheter into a heart chamber, monitoring the distal end of the catheter tip within the heart on a visual display, contacting at least one layer of cardiac tissue, creating one or more channels in the heart tissue and/or administering the angiogenic-based therapy.

Abstract: The present invention includes a method of treating Parkinson's disease in a patient comprising: administering a therapeutically effective amount of a FGF-115-155 and mutants thereof conjugated to a heparin (FGF-1), which is an amount sufficient to reduce or eliminate one or more symptoms associated with Parkinson's disease.

Abstract: The present invention includes a method of treating ischemic stroke, comprising administering to a subject with ischemic stroke an FGF-1, FGF-11-155, FGF-11-141, or combinations thereof, in an amount sufficient to cross the blood brain barrier and reduce or eliminate the ischemic stroke. In one aspect, the method also includes administering at least one other therapeutic agent to the subject, before, concurrently with or after the FGF-1, FGF-11-155, FGF-11-141, or combinations thereof.

Abstract: Disclosed are devices, methods and surgical procedures for detecting, imaging, analyzing, diagnosing and/or treating vascular disorders and related conditions of the human and mammalian body in males and/or females. In particular embodiments, treatments include methods for imaging, analyzing and improving erectile dysfunction and related conditions and potentially increasing angiogenesis in response to specifically diagnosed conditions.

Abstract: The invention provides extended release amantadine compositions for once daily administration of amantadine to a subject.

Abstract: Disclosed are devices, methods and surgical procedures for detecting, imaging, analyzing, diagnosing and/or treating vascular disorders and related conditions of the human and mammalian body in males and/or females. In particular embodiments, treatments include methods for imaging, analyzing and improving erectile dysfunction and related conditions and potentially increasing angiogenesis in response to specifically diagnosed conditions.

Abstract: The invention provides extended release amantadine compositions for once daily administration of amantadine to a subject.

Abstract: The invention provides methods for treating CNS-related conditions with amantadine and donepezil, in which the amantadine is in an extended release form, wherein the extended release amantadine formulation provides a change in plasma concentration as a function of time (dC/dT) that is less than 40% of the dC/dT of the same quantity of an immediate release form of amantadine.

Abstract: Disclosed are devices, methods and surgical procedures for detecting, imaging, analyzing, diagnosing and/or treating vascular disorders and related conditions of the human and mammalian body in males and/or females. In particular embodiments, treatments include methods for imaging, analyzing and improving erectile dysfunction and related conditions and potentially increasing angiogenesis in response to specifically diagnosed conditions.

Abstract: The invention provides extended release amantadine compositions for once daily administration of amantadine to a subject.

Abstract: The invention provides extended release amantadine compositions for once daily administration of amantadine to a subject.

Abstract: The invention provides methods for treating CNS-related conditions with amantadine and donepezil, in which the amantadine is in an extended release form, wherein the extended release amantadine formulation provides a change in plasma concentration as a function of time (dC/dT) that is less than 40% of the dC/dT of the same quantity of an immediate release form of amantadine.

Abstract: The invention provides methods for treating CNS-related conditions with amantadine and donepezil, in which the amantadine is in an extended release form, wherein the extended release amantadine formulation provides a change in plasma concentration as a function of time (dC/dT) that is less than 40% of the dC/dT of the same quantity of an immediate release form of amantadine.

Abstract: The invention provides methods for treating CNS-related conditions with amantadine and donepezil, in which the amantadine is in an extended release form, wherein the extended release amantadine formulation provides a change in plasma concentration as a function of time (dC/dT) that is less than 40% of the dC/dT of the same quantity of an immediate release form of amantadine.

Abstract: The invention provides methods for treating CNS-related conditions with amantadine and donepezil, in which the amantadine is in an extended release form, wherein the extended release amantadine formulation provides a change in plasma concentration as a function of time (dC/dT) that is less than 40% of the dC/dT of the same quantity of an immediate release form of amantadine.

Abstract: The invention provides methods for treating CNS-related conditions with amantadine and donepezil, in which the amantadine is in an extended release form, wherein the extended release amantadine formulation provides a change in plasma concentration as a function of time (dC/dT) that is less than 40% of the dC/dT of the same quantity of an immediate release form of amantadine.

Abstract: The invention provides methods for treating CNS-related conditions with amantadine and donepezil, in which the amantadine is in an extended release form, wherein the extended release amantadine formulation provides a change in plasma concentration as a function of time (dC/dT) that is less than 40% of the dC/dT of the same quantity of an immediate release form of amantadine.

Abstract: The invention provides methods for treating CNS-related conditions with amantadine and donepezil, in which the amantadine is in an extended release form, wherein the extended release amantadine formulation provides a change in plasma concentration as a function of time (dC/dT) that is less than 40% of the dC/dT of the same quantity of an immediate release form of amantadine.

Abstract: The invention provides methods for treating CNS-related conditions with amantadine and donepezil, in which the amantadine is in an extended release form, wherein the extended release amantadine formulation provides a change in plasma concentration as a function of time (dC/dT) that is less than 40% of the dC/dT of the same quantity of an immediate release form of amantadine.