Abstract: Described are inventions directed to methods of treating a cardiac dysfunction in a subject that includes administering an amount of probenecid effective to treat a symptom of cardiac dysfunction. The probenecid may be administered in at least one of an injection, orally, or transdermally. The amount of probenecid is sufficient to result in an improved performance on a standardized 6 minute walk test, an improved New York Heart Association (NYHA) classification, a lower diuretic dose requirement, a lower serum BNP levels, a normalization of serum sodium concentrations, and combinations thereof. In an embodiment, probenecid is administered over a period of about 8 hours to about 24 hours. Probenecid may be used for short term treatments, i.e., less than a week, or it may be administered in a long term manner, i.e., over a period of weeks, months, or even years.

Abstract: Described herein are inventions directed to methods of treating a diastolic cardiac dysfunction and the symptoms thereof in a subject that includes administering an amount of a TRPV2 receptor agonist effective to treat the diastolic cardiac dysfunction. The TRPV2 receptor agonist may be administered in at least one of an injection, orally, or transdermally. The amount of TRPV2 receptor agonist is sufficient to result in an improved performance on quantitative diagnostic criteria. In an embodiment, the TRPV2 receptor agonist is administered over a period of about 8 hours to about 24 hours. The TRPV2 receptor agonist may be used for short term treatments, i.e., less than a week, or it may be administered in a long term manner, i.e., over a period of weeks, months, or even years. Exemplary TRPV2 receptor agonists include probenecid, 2-aminoethoxydiphenyl borate, cannabinol, cannabidiol, and combinations thereof.

Abstract: Described herein are inventions directed to methods of treating a diastolic cardiac dysfunction and the symptoms thereof in a subject that includes administering an amount of a TRPV2 receptor agonist effective to treat the diastolic cardiac dysfunction. The TRPV2 receptor agonist may be administered in at least one of an injection, orally, or transdermally. The amount of TRPV2 receptor agonist is sufficient to result in an improved performance on quantitative diagnostic criteria. In an embodiment, the TRPV2 receptor agonist is administered over a period of about 8 hours to about 24 hours. The TRPV2 receptor agonist may be used for short term treatments, i.e., less than a week, or it may be administered in a long term manner, i.e., over a period of weeks, months, or even years. Exemplary TRPV2 receptor agonists include probenecid, 2-aminoethoxydiphenyl borate, cannabinol, cannabidiol, and combinations thereof.

Abstract: Methods of inhibiting ischemia-related and ischemia-reperfusion-related injury are provided. Remote administration of a C-fiber activator or TRPV1 agonist or remote electrical stimulation and activation of TRPV1 reduces ischemia-related tissue damage in subjects at risk for ischemia-related tissue damage. In aspects of the invention, remote application of a TRPV1 agonist inhibits ischemia-related cardiac tissue damage. Methods of inhibiting cardiac tissue damage by topically administering the TRPV1 agonist, capsaicin are provided.

Abstract: Methods of inhibiting ischemia-related and ischemia-reperfusion-related injury are provided. Remote administration of a C-fiber activator or TRPV1 agonist or remote electrical stimulation and activation of TRPV1 reduces ischemia-related tissue damage in subjects at risk for ischemia-related tissue damage. In aspects of the invention, remote application of a TRPV1 agonist inhibits ischemia-related cardiac tissue damage. Methods of inhibiting cardiac tissue damage by topically administering the TRPV1 agonist, capsaicin are provided.

Abstract: Described herein are inventions is directed to methods of treating a cardiac dysfunction and symptoms of cardiac dysfunction in a subject that includes administering an amount of probenecid effective to treat a symptom of cardiac dysfunction. The probenecid may be administered in at least one of an injection, orally, or transdermally. The amount of probenecid is sufficient to result in an improved performance on a standardized 6 minute walk test, an improved New York Heart Association (NYHA) classification, a lower diuretic dose requirement, a lower serum BNP levels, a normalization of serum sodium concentrations, and combinations thereof In an embodiment, probenecid is administered over a period of about 8 hours to about 24 hours. Probenecid may be used for short term treatments, i.e., less than a week, or it may be administered in a long term manner, i.e., over a period of weeks, months, or even years. Probenecid may be administered in an amount sufficient to treat the symptoms of cardiac dysfunction.

Abstract: Methods of inhibiting ischemia-related and ischemia-reperfusion-related injury are provided. Remote administration of a C-fiber activator or TRPV1 agonist or remote electrical stimulation and activation of TRPV1 reduces ischemia-related tissue damage in subjects at risk for ischemia-related tissue damage. In aspects of the invention, remote application of a TRPV1 agonist inhibits ischemia-related cardiac tissue damage. Methods of inhibiting cardiac tissue damage by topically administering the TRPV1 agonist, capsaicin are provided.

Abstract: Methods of inhibiting ischemia-related and ischemia-reperfusion-related injury are provided. Remote administration of a C-fiber activator or TRPV1 agonist or remote electrical stimulation and activation of TRPV1 reduces ischemia-related tissue damage in subjects at risk for ischemia-related tissue damage. In aspects of the invention, remote application of a TRPV1 agonist inhibits ischemia-related cardiac tissue damage. Methods of inhibiting cardiac tissue damage by topically administering the TRPV1 agonist, capsaicin are provided.