Compositions and kits comprising a tyrosine hydroxylase inhibitor and an anticancer agent that is chemically bonded to, or physically associated with, the tyrosine hydroxylase inhibitor are provided. Also provided are methods for reducing cell proliferation in a subject comprising administering to a subject in need thereof a composition comprising a tyrosine hydroxylase inhibitor and an anticancer agent that is chemically bonded to, or physically associated with, the tyrosine hydroxylase inhibitor.

Mixing a low-viscosity solution and a high-viscosity solution was difficult. An object of the present invention is to provide a holder for mixed administration of at least two types of solutions for enhancing the radiation or anticancer therapeutic effect on a tumor, wherein the holder is capable of simultaneously discharging each solution at a constant ratio from respective syringes containing each solution.

Mixing a low-viscosity solution and a high-viscosity solution was difficult. An object of the present invention is to provide a holder for mixed administration of at least two types of solutions for enhancing the radiation or anticancer therapeutic effect on a tumor, wherein the holder is capable of simultaneously discharging each solution at a constant ratio from respective syringes containing each solution.

Mixing a low-viscosity solution and a high-viscosity solution was difficult. An object of the present invention is to provide a holder for mixed administration of at least two types of solutions for enhancing the radiation or anticancer therapeutic effect on a tumor, wherein the holder is capable of simultaneously discharging each solution at a constant ratio from respective syringes containing each solution.

An oral care composition, including a catalyzing enzyme and an anhydrous matrix configured to at least partially stabilize the catalyzing enzyme, wherein the anhydrous matrix includes a source of hydrogen peroxide, an acyl donor, a non-aqueous anhydrous liquid, and a surfactant mixture including sodium lauryl sulfate (SLS), Betaine, and a poloxamer.

An oral care composition, including a catalyzing enzyme and an anhydrous matrix configured to at least partially stabilize the catalyzing enzyme, wherein the anhydrous matrix includes a source of hydrogen peroxide, an acyl donor, a non-aqueous anhydrous liquid, and a surfactant mixture including sodium lauryl sulfate (SLS), Betaine, and a poloxamer.

The present disclosure relates to micellar compositions conformed by biomimetic phospholipids and nonionic surfactants, among other ingredients, for eliminating one or more types of microorganisms including mycobacteria, bacteria, fungi, and viruses from a surface within a contact time on the surface of less than about 1 minutes and having pH of from about 0.3 to 8. The present invention aims on using 100% bio-based (renewable) biodegradable, non-toxic ingredients to be applied not only to hard inanimate surfaces but also on tissue for endodontic applications.

The present disclosure relates to micellar compositions conformed by biomimetic phospholipids and nonionic surfactants, among other ingredients, for eliminating one or more types of microorganisms including mycobacteria, bacteria, fungi, and viruses from a surface within a contact time on the surface of less than about 1 minutes and having pH of from about 0.3 to 8. The present invention aims on using 100% bio-based (renewable) biodegradable, non-toxic ingredients to be applied not only to hard inanimate surfaces but also on tissue for endodontic applications.

Disclosed herein are methods and compositions for enhancing gene targeting. The method entails co-administrating to a cell a targeting molecule and a means of enhancing the function of the targeting molecule upon delivery to the cell. The means of enhancing the function of the targeting molecule including one or more of a stressor that induces cellular stress, a proton sponge molecule, and an endosome or lysosome inhibitor. Compositions disclosed include a targeting molecule and one or more of a stressor that induces cellular stress, a proton sponge molecule, and an endosome or lysosome inhibitor.

Disclosed herein are methods and compositions for enhancing gene targeting. The method entails co-administrating to a cell a targeting molecule and a means of enhancing the function of the targeting molecule upon delivery to the cell. The means of enhancing the function of the targeting molecule including one or more of a stressor that induces cellular stress, a proton sponge molecule, and an endosome or lysosome inhibitor. Compositions disclosed include a targeting molecule and one or more of a stressor that induces cellular stress, a proton sponge molecule, and an endosome or lysosome inhibitor.