The present disclosure provides a composition that may find utility in management of COVID-19. The inventors of the present disclosure surprisingly observed that ingredients of the composition of the present disclosure exhibit functional synergy therebetween, wherein the composition prevents virus replication and/or Virus entry into human cells, either wholly or in part, while modulating immune response of the patient. Hence, the composition of the present disclosure holds potential for wide spread usage in management of COVID-19, either alone or in combination with other preventive or palliative/symptomatic or therapeutic strategies.

The present disclosure provides a composition that may find utility in management of COVID-19. The inventors of the present disclosure surprisingly observed that ingredients of the composition of the present disclosure exhibit functional synergy therebetween, wherein the composition prevents virus replication and/or Virus entry into human cells, either wholly or in part, while modulating immune response of the patient. Hence, the composition of the present disclosure holds potential for wide spread usage in management of COVID-19, either alone or in combination with other preventive or palliative/symptomatic or therapeutic strategies.

A method of treating patients by using a pharmaceutical composition for intra-intestinal administration comprises (i) a dopamine replacement agents, (ii) a dopamine decarboxylase inhibitor (DDI), and (iii) a COMT inhibitor where the composition is continuously administrated.

A method of treating patients by using a pharmaceutical composition for intra-intestinal administration comprises (i) a dopamine replacement agents, (ii) a dopamine decarboxylase inhibitor (DDI), and (iii) a COMT inhibitor where the composition is continuously administrated.

Disclosed herein are delivery systems including coated and uncoated yarns, yarn precursors, threads, fibers, and other substrates for the constant or near-constant release of active compounds, as well as methods for manufacturing such delivery systems. The yarns, yarn precursors, threads, fibers, and other substrates can include a cross-linked hydrophobic elastomer and an active compound. One or more coatings that are impermeable or substantially impermeable to the active compound may partially or fully occlude the yarn or substrate to control release rates of the active compound. The delivery systems may be used in a variety of applications, including the making of articles of clothing, textiles, and fabrics, and may be used in methods of treating various conditions and diseases.

Disclosed herein are delivery systems including coated and uncoated yarns, yarn precursors, threads, fibers, and other substrates for the constant or near-constant release of active compounds, as well as methods for manufacturing such delivery systems. The yarns, yarn precursors, threads, fibers, and other substrates can include a cross-linked hydrophobic elastomer and an active compound. One or more coatings that are impermeable or substantially impermeable to the active compound may partially or fully occlude the yarn or substrate to control release rates of the active compound. The delivery systems may be used in a variety of applications, including the making of articles of clothing, textiles, and fabrics, and may be used in methods of treating various conditions and diseases.

The present disclosure is directed to methods of treating a steatosis-associated disorder by administering a therapeutic agent selected from a lysosomal enzyme, an autophagy-inducing agent, or a combination thereof. Steatosis-associated disorders discussed herein include GSD Ia, GSD Ib, GSD Ic, NAFLD, and NASH. Other embodiments are directed to methods of reversing steatosis, modulating autophagy, inducing autophagy, and reversing glycogen storage.

The present disclosure is directed to methods of treating a steatosis-associated disorder by administering a therapeutic agent selected from a lysosomal enzyme, an autophagy-inducing agent, or a combination thereof. Steatosis-associated disorders discussed herein include GSD Ia, GSD Ib, GSD Ic, NAFLD, and NASH. Other embodiments are directed to methods of reversing steatosis, modulating autophagy, inducing autophagy, and reversing glycogen storage.

Compositions and methods relating to modulating thermogenic regulation are disclosed. The compositions and methods can be used to treat diseases or conditions such as obesity or cardiometabolic disorders such as type 2 diabetes mellitus, NAFLD and NASH. Compositions include an adipocyte-targeting composition that includes a therapeutic agent capable of modulating thermogenic regulation, a targeting element facilitating cellular uptake and delivery of the therapeutic agent to a targeted adipocyte, and liposomal particles comprising sphingomyelin, DMPC, and cholesterol, wherein the liposomal particles enhance intra-cellular penetration of the therapeutic agent and protect the therapeutic agent from degradation.

The present invention resides in the discovery that combined use of kuraridin (or any one of its analogs) and epicatechin gallate (ECG) can provide heightened level of antimicrobial activity, especially for the suppression of bacteria of the Staphylococcus aureus and Staphylococcal species. Compositions, kits, and methods for the combination use are disclosed.