A method of improving at least one of the following in an individual: lean mass, muscle strength, cognition, systemic inflammation levels, blood cholesterol levels, blood triglyceride levels and glucose tolerance is provided, comprising administering to the individual a multi-nutrient composition a protein, creatine, vitamin D, calcium and an n-3 fatty acid.

A method of improving at least one of the following in an individual: lean mass, muscle strength, cognition, systemic inflammation levels, blood cholesterol levels, blood triglyceride levels and glucose tolerance is provided, comprising administering to the individual a multi-nutrient composition a protein, creatine, vitamin D, calcium and an n-3 fatty acid.

The present invention relates to a benzimidazolone-based cinnamamide derivative as a TRPV1 antagonist and a pharmaceutical composition for treating or preventing pain containing the same as an active ingredient. The example compounds provided in one aspect of the present invention block the TRPV1 activation caused by capsaicin, a TRPV1 receptor activator, but induce an appropriate inhibition of about 20% to 80% of pH, thereby the compounds have effects of alleviating pain and effectively reducing side effects such as abnormal body temperature.

The present invention relates to a benzimidazolone-based cinnamamide derivative as a TRPV1 antagonist and a pharmaceutical composition for treating or preventing pain containing the same as an active ingredient. The example compounds provided in one aspect of the present invention block the TRPV1 activation caused by capsaicin, a TRPV1 receptor activator, but induce an appropriate inhibition of about 20% to 80% of pH, thereby the compounds have effects of alleviating pain and effectively reducing side effects such as abnormal body temperature.

The disclosure relates to a dosage forms and combinations of dosage forms useful for effective oral administration of drugs which are otherwise unsuitable for oral administration, owing to acid- and/or protease-mediated degradation. The dosage forms include a self-microemulsifying drug delivery system (SMEDDS) with which the drug is combined and an antacid. When co-administered to a mammal, the dosage form(s) can prevent drug degradation by the strong acid and digestive enzymes normally present in the gastric environment, and can improve water-soluble drug absorption in gastrointestinal (GI) tract. The dosage forms can be used to effectively administer insulin by an oral route, for example, such as in the form of a powder that can be stored for long periods and reconstituted with water or another fluid shortly before administration.

The disclosure relates to a dosage forms and combinations of dosage forms useful for effective oral administration of drugs which are otherwise unsuitable for oral administration, owing to acid- and/or protease-mediated degradation. The dosage forms include a self-microemulsifying drug delivery system (SMEDDS) with which the drug is combined and an antacid. When co-administered to a mammal, the dosage form(s) can prevent drug degradation by the strong acid and digestive enzymes normally present in the gastric environment, and can improve water-soluble drug absorption in gastrointestinal (GI) tract. The dosage forms can be used to effectively administer insulin by an oral route, for example, such as in the form of a powder that can be stored for long periods and reconstituted with water or another fluid shortly before administration.

A method of treatment for mixed carbon dioxide, carbonic acid, saline and optional active additives for treating non-nasal ailments includes delivery of dosage of the treatment at specified flow rates, using a) main housing having a hollow central area containing the dosage; b) a dosage dispenser head located at the distal end of the main housing, and having at least one flow channel for movement of the dosage from the main housing through the dosage dispenser head and to external of the dosage dispenser head; c) a dosage release control component located between the main housing and the dosage dispenser head to permit flow of the dosage through the dosage dispenser head in response to increased pressure against the dosage; and d) a pressure-changing moveable component on the main housing.

Agents, kits, and methods that utilize oxygenation to treat Inflammatory Bowel Disease (IBD) and/or provide prophylaxis against exacerbation of IBD are provided. In several embodiments, the agents, kits, and methods according to several embodiments generate in, or carry to, oxygen in the intestinal lumen to treat IBD and provide prophylaxis against exacerbation of IBD, including those caused by the presence of anaerobic bacteria in the intestine. The agents, kits, and methods provided herein generate an aerobic environment within the intestine to alleviate intestinal inflammation.

Agents, kits, and methods that utilize oxygenation to treat Inflammatory Bowel Disease (IBD) and/or provide prophylaxis against exacerbation of IBD are provided. In several embodiments, the agents, kits, and methods according to several embodiments generate in, or carry to, oxygen in the intestinal lumen to treat IBD and provide prophylaxis against exacerbation of IBD, including those caused by the presence of anaerobic bacteria in the intestine. The agents, kits, and methods provided herein generate an aerobic environment within the intestine to alleviate intestinal inflammation.

The present invention provides stabilized amorphous calcium carbonate (ACC) formulations, comprising ACC and a non-aqueous liquid carrier in which the ACC is dispersed. The present invention further provides cosmetic and pharmaceutical compositions comprising ACC.