Compositions and methods for combinatorial drug discovery in nanoliter droplets are described. Novel synergistic agents that increase efficacy of antibiotic agents to treat bacterial infection are disclosed.

Compositions and methods for combinatorial drug discovery in nanoliter droplets are described. Novel synergistic agents that increase efficacy of antibiotic agents to treat bacterial infection are disclosed.

Methods for neutralizing stomach acid in a subject including alginate-based nutritional products (“AP”). AP includes alginate as a reflux-neutralizing, raft-forming, stabilizing agent, including polylysine, dextrose and grapefruit seed extract preservatives. The methods are intended to provide relief or prophylaxis of acid reflux and other forms of indigestion in mammals. In some embodiments, dextrose and polylysine are combined to form a preservative for the alginate-based nutritional supplement. In other embodiments, a method for producing a reflux preventing raft is provided.

Methods for neutralizing stomach acid in a subject including alginate-based nutritional products (“AP”). AP includes alginate as a reflux-neutralizing, raft-forming, stabilizing agent, including polylysine, dextrose and grapefruit seed extract preservatives. The methods are intended to provide relief or prophylaxis of acid reflux and other forms of indigestion in mammals. In some embodiments, dextrose and polylysine are combined to form a preservative for the alginate-based nutritional supplement. In other embodiments, a method for producing a reflux preventing raft is provided.

The present invention provides polymers, particles, and compositions thereof that selectively and efficiently deliver various therapeutic agents, such as metabolites, to a cell. The present invention further relates to methods relating to the said polymers, particles, and compositions for enhancing biological tissue growth (e.g. biological tissue regeneration in wound healing) in a subject. The present invention additionally provides kits that find use in the practice of the methods of the invention.

The present invention provides a novel therapeutic strategy for anti-PD-1 antibody therapy. The present invention relates to a pharmaceutical composition which increases the function of oxidative phosphorylation in T cells; and a pharmaceutical composition which has an action for increasing the function of oxidative phosphorylation in T cells and is administered before, after or simultaneously with the administration of a PD-1 signaling inhibitor.

The present invention provides a novel therapeutic strategy for anti-PD-1 antibody therapy. The present invention relates to a pharmaceutical composition which increases the function of oxidative phosphorylation in T cells; and a pharmaceutical composition which has an action for increasing the function of oxidative phosphorylation in T cells and is administered before, after or simultaneously with the administration of a PD-1 signaling inhibitor.

The present invention provides a novel therapeutic strategy for anti-PD-1 antibody therapy. The present invention relates to a pharmaceutical composition which increases the function of oxidative phosphorylation in T cells; and a pharmaceutical composition which has an action for increasing the function of oxidative phosphorylation in T cells and is administered before, after or simultaneously with the administration of a PD-1 signaling inhibitor.

The present invention provides shortening TB Therapy and reducing relapse by co-administering Chloroquine with anti-TB drugs to drug-sensitive TB patients, multiple drug resistant (MDR) TB patients and TB patients co-infected with HIV-1. The present invention also provides shortening TB Therapy and reducing relapse by co-administering hydroxychloroquine with anti-TB drugs to drug-sensitive TB patients, multiple drug resistant (MDR) TB patients and TB patients co-infected with HIV-1.

The present invention provides shortening TB Therapy and reducing relapse by co-administering Chloroquine with anti-TB drugs to drug-sensitive TB patients, multiple drug resistant (MDR) TB patients and TB patients co-infected with HIV-1. The present invention also provides shortening TB Therapy and reducing relapse by co-administering hydroxychloroquine with anti-TB drugs to drug-sensitive TB patients, multiple drug resistant (MDR) TB patients and TB patients co-infected with HIV-1.