Particles for delivery of active ingredients formed from an active ingredient and a hydrophobic matrix, as well as methods for making such particles.

A pharmaceutical composition of a polyethylene glycol-modified camptothecin derivative and a preparation method thereof. The pharmaceutical composition is prepared mainly from following components: a camptothecin derivative modified by polyethylene glycol, a pH value adjustment agent and water for injection. The pharmaceutical composition has high stability.

Implants comprising an antimalarial agent such as decoquinate or another therapeutic drug are disclosed. The implants can be in the form of a complex comprising a drug, a lipid or lipids and optionally a polymer carrier. The present invention provides methods for preparing implants wherein the implants comprise decoquinate or another therapeutic drug, and a lipid or lipids such as cholesterol, monoglycerides, or diglycerides, and optionally a small percentage of a biocompatible polymer based on the total implant weight. The implants are useful for releasing a therapeutic drug at a constant level and maintaining a prophylactic or therapeutic level of the drug in a subject, for preventing a malarial infection or treating other diseases or disorders.

Tamper-resistant pharmaceutical compositions have been developed to reduce the likelihood of improper administration of drugs, especially drugs such as opioids. The tamper-resistant compositions retard the release of drug, even if the physical integrity of the formulation is compromised (for example, by chopping with a blade or crushing) and the resulting material is placed in water, snorted, or swallowed. However, when administered as directed, the drug is slowly released from the composition as the composition is passes through the GI tract.

A method and formulation for preparing spray dried vancomycin. In various embodiment, the formulation includes vancomycin HCl (10-20%) and one or more of the following PEG (0-5%), mannitol (0-5%), ethanol (0-10%), and a citrate buffer. Spray dried vancomycin has favorable reconstitution times and water content.

The present invention relates to aggregate particles comprising nanoparticulate drug particles. In particular, the present invention is directed to aggregate particles comprising nanoparticulate drug particles of umeclidinium bromide and optionally vilanterol trifenatate and/or fluticasone furoate. Aggregate particles of the present invention may further comprise nanoparticulate excipient particles and one or more binders. The invention also relates to powder compositions suitable for inhalation that comprise said aggregate particles, processes of producing said aggregate particles, and use of said powder compositions in the treatment of respiratory diseases, such as asthma and COPD.

Phospholipid-coated nanoparticles containing a therapeutic agent, compositions that include the nanoparticles, and methods for making and using the nanoparticles and compositions.

The invention provides a method of inducing satiety in a subject comprising a step of orally administering a composition comprising an effective amount of a first agent capable of inducing satiety and of a second agent capable of augmenting the satiety-inducing effect of the first agent. Also disclosed are compositions for carrying out the method, and a body weight management system comprising such compositions in combination with a device configured for the collection, storage and/or display of information relating to a subject's response to a predefined therapeutic regimen of orally administering the composition.

A suspension formulation of an insulinotropic peptide (e.g., glucagon-like peptide-1 (GLP-1) or exenatide) is described. The suspension formulation comprises (i) a non-aqueous, single-phase vehicle, comprising one or more polymer and one or more one solvent, wherein the vehicle exhibits viscous fluid characteristics, and (ii) a particle formulation comprising the insulinotropic peptide, wherein the peptide is dispersed in the vehicle. The particle formulation further includes a stabilizing component comprising one or more stabilizers, for example, carbohydrates, antioxidants, amino acids, and buffers. Devices for delivering the suspension formulations and methods of use are also described.

The disclosure provides an injectable neurosteroid nanoparticle formulation comprising nanoparticles having a D50 of less than 2000 nm the nanoparticles comprising a neurosteroid of Formula I,

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where the variables R.sup.1-R.sup.9 and X are defined herein and at least one surface stabilizer. The surface stabilizer can be a polymeric surface stabilizer such as hydroxyethyl starch, dextran, or povidone. The injectable neurosteroid nanoparticle formulation can be an intravenous formulation. The disclosure also provides a lyophilized powder of the injectable neurosteroid nanoparticle formulation that can be reconstituted in an aqueous solution prior to administration. The disclosure provides injectable neurosteroid nanoparticle formulations and dry powders of such formulations that have been sterilized by ebeam irradiation. The disclosure provides a method of treating a patient having a seizure disorder, stroke, or traumatic brain injury, comprising administering an effective amount of the injectable neurosteroid nanoparticle formulation. The disclosure also provides combination methods in which the injectable neurosteroid nanoparticle formulation is a first active agent that is administered in combination with at least one additional active agent.