The present disclosure relates to metformin glycinate and methods of using metformin glycinate for the treatment of diseases including diabetes mellitus, obesity, dyslipidemia, diseases associated with IL-10 up-regulation, and diseases or disorders associated with elevated or increased ceramide levels. Pharmaceutical formulations comprising metformin glycinate are also disclosed.

The invention provides novel compounds, pharmaceutical compositions and methods of preparation and use thereof for treating disease affecting the central nervous system such as multiple sclerosis.

The invention provides novel compounds, pharmaceutical compositions and methods of preparation and use thereof for treating disease affecting the central nervous system such as multiple sclerosis.

Compounds, pharmaceutical compositions, and methods are disclosed for inhibiting interaction between IL18 and IL18R.

The present invention provides a continuous solvent free and additive free process for the synthesis of Metformin Hydrochloride in a screw reactor. >90% conversion of the solid substrates without solvent is obtained in a screw reactor to produce Metformin Hydrochloride with at least 90% selectivity.

The present invention provides a continuous solvent free and additive free process for the synthesis of Metformin Hydrochloride in a screw reactor. >90% conversion of the solid substrates without solvent is obtained in a screw reactor to produce Metformin Hydrochloride with at least 90% selectivity.

The present disclosure provides a preparation method for metformin hydrochloride. The preparation method includes: microwave heating raw materials containing dicyandiamide and dimethylamine hydrochloride, and reacting the two at 100° C. to 160° C. to obtain a product system containing metformin hydrochloride. Microwave heating is adopted to heat the dicyandiamide and the dimethylamine hydrochloride. Compared with a conventional heating mode that requires heat to be gradually transferred from the outside to the inside, microwave heating can directly heat each part inside the reactant, which can make the internal temperature of the reactant more uniform, thereby reducing the generation of impurities.

The present disclosure provides a preparation method for metformin hydrochloride. The preparation method includes: microwave heating raw materials containing dicyandiamide and dimethylamine hydrochloride, and reacting the two at 100° C. to 160° C. to obtain a product system containing metformin hydrochloride. Microwave heating is adopted to heat the dicyandiamide and the dimethylamine hydrochloride. Compared with a conventional heating mode that requires heat to be gradually transferred from the outside to the inside, microwave heating can directly heat each part inside the reactant, which can make the internal temperature of the reactant more uniform, thereby reducing the generation of impurities.

The invention is directed to a composition of metal particles and methods of manufacturing and using the composition in the treatment of microbial infections and cancer. The particles can be nanoparticles having coupled thereto at least one of a surfactant, an antibiotic, and a drug. The particles of the invention achieve enhanced stability, enhanced cytotoxicity, and enhanced antimicrobial activity through novel combinations of metals, surfactants, antibiotics, and drugs.

The invention is directed to a composition of metal particles and methods of manufacturing and using the composition in the treatment of microbial infections and cancer. The particles can be nanoparticles having coupled thereto at least one of a surfactant, an antibiotic, and a drug. The particles of the invention achieve enhanced stability, enhanced cytotoxicity, and enhanced antimicrobial activity through novel combinations of metals, surfactants, antibiotics, and drugs.