Provided herein are branched poly(beta-amino esters) (PBAE) useful as vehicles for the delivery of therapeutic agents, such as nucleic acids. The disclosed polymers form stable compositions, and are suitable for the delivery of therapeutic agents via nebulization. Compositions of the disclosed polymers are capable of delivering therapeutic agents such as mRNA to lung epithelial cells.

This invention provides novel compositions comprising an anti-inflammatory agent and a mydriatic agent suitable for intraocular use, particularly ketorolac or pharmaceutically salts thereof and phenylephrine or pharmaceutically salts thereof, which are free of any buffering agent and yet, surprisingly, maintain stability for significant periods of time (e.g., at least about 3 months). The present invention also relates to a process of preparing such compositions and use thereof, e.g., in combination with intraocular ophthalmologic irrigation solutions.

Disclosed are formulations comprising brincidofovir. The formulations can be intravenous formulations. The formulations can be used in cases where a subject experiences gastrointestinal issues in response to oral administration of brincidofovir. The formulations can also be used in cases where oral administration of drug is not possible due to underlying conditions or concern around inadequate oral absorption.

The present invention relates to the in vitro use of a group of cell-penetrating conjugate systems or a formulation incorporating the same for transporting e.g. therapeutically active agents, such as chemotherapeutics, insulin and immunosuppressants across the cellular membranes of mammalian cells, including human cells. The invention also relates to an in vitro methods of transporting physiologically active agents, such as therapeutics, across cell-membranes by using the cell-penetrating conjugate systems according to the present invention as well as the cell-penetrating conjugate systems for use in treatment of cancer, diabetes and for use in immunotherapy.

A hydrogel composition, a hydrogel biomedical material, a method for facilitating regeneration of a bone and a manufacturing method of a hydrogel composition are provided. The hydrogel composition includes a first deionized water, a gel powder, a transglutaminase mixture and a hyaluronic acid powder. The gel powder includes gelatin and alginic acid. The first deionized water, the gel powder, the transglutaminase mixture and the hyaluronic acid powder are evenly mixed. Based on the hydrogel composition being 100 wt %, the first deionized water is 95 wt % to 98.46 wt %, the gel powder is 1 wt % to 3 wt %, the transglutaminase mixture is 0.04 wt % to 0.15 wt %, and the hyaluronic acid powder is 0.5 wt % to 1.5 wt %.

Ready-to-use liquid bivalirudin compositions, methods of using the ready-to-use bivalirudin compositions, and methods of preparing the ready-to-use liquid bivalirudin compositions are provided herein. The liquid ready-to-use bivalirudin compositions comprise a pharmaceutically acceptable amount of bivalirudin.

Provided is a pharmaceutical formulation comprising a modified IL-7 protein. More particularly, it comprises (a) a modified IL-7 fusion protein; (b) a basal buffer with a concentration of 10 to 50 mM; (c) a sugar with a concentration of 2.5 to 5 w/v %; and (d) a surfactant with a concentration of 0.05 to 6 w/v %. Such pharmaceutical formulation of a modified IL-7 fusion protein does not show aggregates formation, but shows protective effects on proteins under stress conditions such as oxidation or agitation, and thus can effectively be used for the treatment of a patient.

Trans-crocetin pharmaceutical compositions, dosing regimens and methods of treating or preventing disorders and conditions associated with, but not limited to, infection, ischemia, hypoxia, ARDS, inflammation, sepsis, shock, stroke, traumatic injury, and proliferative disorders such as cancer are provided. Methods of using the provided trans-crocetin pharmaceutical compositions and dosing regimens to treat cardiovascular, renal, liver, inflammatory, metabolic, pulmonary, neurological, and other disorders and conditions are also provided, as are methods of increasing the delivery of oxygen and increasing the efficacy of a therapeutic agent using the provided compositions and dosing regimens.

A liquid formulation of a long-acting conjugate of a peptide having activities for a glucagon receptor and a GLP-1 receptor, and a method for preparing the liquid formulation are disclosed. The liquid formulation contains 18 nmol/mL to 940 nmol/mL of the long-acting conjugate, a buffering agent in an amount for maintaining the pH of the liquid formulation in the range of 4.5 to 7.5, and 1% (w/v) to 20% (w/v) of saccharide, and 0.001% (w/v) to 0.2% (w/v) of a nonionic surfactant.

In one non-limiting embodiment, the present disclosure is an antibody-containing formulation comprising an anti-IL-6 receptor antibody as an active ingredient, and contains histidine-aspartate buffer or histidine-glutamate buffer, Poloxamer 188, and arginine, and has a pH of 5.5 to 6.6. In one non-limiting embodiment, the present disclosure is a method of stabilizing an antibody-containing solution, a method of suppressing antibody association (e.g., dimerization), and a method of suppressing the generation of insoluble particles, wherein L-aspartic acid or L-glutamic acid, and optionally, Poloxamer 188 are added.