Provided is a liquid composition for ophthalmic products. The liquid composition includes a buffer solution and a zinc salt dissolved in the buffer solution. The zinc salt has a weight percentage concentration of 1×10.sup.−5% to 3% in the liquid composition. The liquid composition may also include a first vitamin dissolved in the buffer solution. The first vitamin has a weight percentage concentration of 1×10.sup.−5% to 1% in the liquid composition. The first vitamin includes vitamin B2, a vitamin B2 derivative, or a combination thereof.

Compositions comprising aldehyde functional monoterpenoids in combination with 3,3′,4′,7-tetrahydroxyflavone, zinc, and a 5-beta-D-Ribofuranosylpicolineamide adenine-dinucleotide molecule are provided for treating viral infections, e.g., coronavirus infections such as COVID-19.

Compositions comprising aldehyde functional monoterpenoids in combination with 3,3′,4′,7-tetrahydroxyflavone, zinc, and a 5-beta-D-Ribofuranosylpicolineamide adenine-dinucleotide molecule are provided for treating viral infections, e.g., coronavirus infections such as COVID-19.

The present technology provides nanoparticles comprising an inorganic core and NAD.sup.+ or NADH, coated with a lipid bilayer, wherein the inorganic core is selected from calcium phosphate or a metal organic framework (MOF); the MOF comprises a transition metal ion coordinated to a coordinating ligand, wherein the transition metal ion is selected from the group consisting of zinc, iron, zirconium, copper, and cobalt ions, and the coordinating ligand is selected from an imidazolate ligand or a carboxylate ligand; and the nanoparticle has an average hydrodynamic diameter of from at least 50 nm to less than 1000 nm. Pharmaceutical compositions incorporating such nanoparticles and methods of treating sepsis and/or inflammation with such particles are also provided.

The present technology provides nanoparticles comprising an inorganic core and NAD.sup.+ or NADH, coated with a lipid bilayer, wherein the inorganic core is selected from calcium phosphate or a metal organic framework (MOF); the MOF comprises a transition metal ion coordinated to a coordinating ligand, wherein the transition metal ion is selected from the group consisting of zinc, iron, zirconium, copper, and cobalt ions, and the coordinating ligand is selected from an imidazolate ligand or a carboxylate ligand; and the nanoparticle has an average hydrodynamic diameter of from at least 50 nm to less than 1000 nm. Pharmaceutical compositions incorporating such nanoparticles and methods of treating sepsis and/or inflammation with such particles are also provided.

A pharmaceutical composition or a cosmetic composition for treating hair loss, or promoting hair growth is described. The composition according to the present invention exhibits an excellent effect of treating hair loss and promoting hair growth, and can be safely used regardless of sex and age.

A pharmaceutical composition or a cosmetic composition for treating hair loss, or promoting hair growth is described. The composition according to the present invention exhibits an excellent effect of treating hair loss and promoting hair growth, and can be safely used regardless of sex and age.

The present disclosure generally relates to compositions and methods of use thereof for treating heart failure encompassing administering a composition of modified mRNA (modRNA) encoding for type 2 phosphatidylinositol-5-phosphate 4-kinase gamma (pip4k2c) to heart tissue of a subject in need thereof.

The present invention discloses a microcapsule powder stable in gastric acid, a method for preparing the same and use thereof. The microcapsule powder comprises a core material and a capsule material coated outside the core material, wherein the capsule material has a melting point of greater than 42° C., and the capsule material does not decompose or dissolve under the action of protease and gastric acid, but decomposes under the action of intestinal digestive enzymes. The core material is coated with the capsule material in the microcapsule powder, thus achieving high-efficiency coating of the core material by a single component. The microcapsule powder achieves conventional intragastric stability as well as favorable stability in an open environment at room temperature, thus solving the problem that the conventional embedding solution may only achieve intragastric stability, but the stability in an open environment at room temperature is low.

The present invention discloses a microcapsule powder stable in gastric acid, a method for preparing the same and use thereof. The microcapsule powder comprises a core material and a capsule material coated outside the core material, wherein the capsule material has a melting point of greater than 42° C., and the capsule material does not decompose or dissolve under the action of protease and gastric acid, but decomposes under the action of intestinal digestive enzymes. The core material is coated with the capsule material in the microcapsule powder, thus achieving high-efficiency coating of the core material by a single component. The microcapsule powder achieves conventional intragastric stability as well as favorable stability in an open environment at room temperature, thus solving the problem that the conventional embedding solution may only achieve intragastric stability, but the stability in an open environment at room temperature is low.