A method of forming an implant in the tissue can include: providing an injectable composition having a neat liquid carrier, wherein the neat liquid carrier is substantially liquid at room temperature and/or about body temperature; and injecting the neat liquid solution into the tissue at the rate of 10-12000 injections per minute and/or at an amount of 1.0E-02 ml to 1.0E-16 ml per needle per injection. The neat liquid carrier can be polymeric or non-polymeric. The neat liquid carrier can be biodegradable. The neat liquid carrier can include a viscosity-modifying agent. The injecting can form an implant with area greater than or equal to 5 mm.sup.2. The neat liquid carrier can be injected at a depth of 10 microns to 5 mm. The neat liquid solution can include a drug or other agent.

Disclosed herein are stable complexes with controlled particle size, increased apparent solubility and increased dissolution rate comprising as active compound Celecoxib, its salts, or derivatives thereof, which is useful in the treatment of osteoarthritis, rheumatoid arthritis, juvenile rheumatoid arthritis, ankylosing spondylitis, acute pain especially in cancer related acute pain, primary dysmenorrhea. More specifically, the complexes possess instantaneous redispersibility, increased apparent solubility and permeability that provide faster onset of action for acute pain relief and lower GI related side effects. Further disclosed are methods of formulating and manufacturing the complexes described herein, pharmaceutical compositions, and uses and methods of treatment.

The present invention relates to methods for producing particles of metaxalone using dry milling processes as well as compositions comprising metaxalone, medicaments produced using metaxalone in particulate form and/or compositions, and to methods of treatment of an animal, including man, using a therapeutically effective amount of metaxalone administered by way of said medicaments.

Disclosed is a pharmaceutical composition containing dabigatran etexilate and a preparation method thereof. The pharmaceutical composition comprises a pharmaceutically active ingredient, dabigatran etexilate and/or dabigatran etexilate mesylate, and a amphiphilic polymer of polyvinyl caprolactam-polyvinyl acetate-polyethylene glycol graft copolymer. The mass ratio of the two is 1:0.23 to 1:3. The pharmaceutical composition not only increases the bioavailability of the pharmaceutically active ingredient, but also reduces absorption variability, and provides a more stable concentration of dabigatran in plasma, thereby reducing adverse side effects.

An implant for the control of parasites in livestock comprising an isoxazoline compound of Formula (I)

##STR00001## or salt or solvate thereof, wherein the implant comprises one or more pellets each of which comprises the isoxaxoline compound and a pharmaceutically acceptable excipient and a method of preventing or treating a parasite infestation using the same.

The present invention relates to the field of methods for providing pharmaceutical compositions comprising poorly water-soluble drugs. In particular the present invention relates to compositions comprising stable, amorphous hybrid nanoparticles, comprising at least one protein kinase inhibitor and at least one polymeric stabilizing and matrix-forming component, useful in pharmaceutical compositions and in therapy.

The present invention relates to a nanoparticle or nanoformulation comprising two or more bioactive phytochemicals from turmeric. The nanoparticle or nanoformulation preferably comprises curcumin or curcuminoids and water-soluble peptides comprising turmerin. The waster-soluble peptides comprising turmerin are preferably present in a water-soluble extract of turmeric which comprises turmerin. Methods for producing the nanoparticle or nanoformulation are also disclosed.

A nanoparticulate composition including particles comprising at least one active ingredient, wherein the particles have an effective average particle size is in the range of about 70 nm to about 220 nm measured by laser light scattering method, wherein at least 50% of said active agent particles have a particle size, by weight (volume based), of less than the effective average particle size; and (b) at least one surface stabilizer and/or at least one polymeric stabilizer, wherein the composition includes (aa) particles of at least one active ingredient selected from the group consisting of (Z)-2-cyano-3-cyclopropyl-3-hydroxy-N-(3-methyl-4-(trifluoromethyl)phenyl) prop-2-enamide, (Z)-2-cyano-3-hydroxy-N-[4-(trifluoromethyl)phenyl]hept-2-en-6-ynamide, 2-cyano-3-cyclopropyl-N-(4-fluorophenyl)-3-hydroxyacrylamide, derivatives thereof, salts thereof and pro-drugs thereof, wherein the particles have an effective average particle size of less than about 2000 nm; and (bb) at least one surface stabilizer and/or at least one polymeric stabilizer.

The present disclosure is directed to methods for tuning the release profile of a biologic disposed in a hydrogel. Parameters that can be used for the tuning include a molar ratio of a nucleophilic group to an electrophilic group, the number of the nucleophilic groups in the first precursor, the number of the electrophilic groups in the second precursor, the molecular weight of the first precursor, the molecular weight of the second precursor, a weight ratio of the biologic and excipient to the hydrogel, a weight percentage of the biologic in a solid state formulation, and a ratio of surface area to volume of the hydrogel. The methods described herein allow the formation of hydrogel with different release profiles suitable for different therapeutic applications.

Provided herein are pharmaceutical formulations of dry-powder bendamustine suitable for pharmaceutical use. Also provided are methods of producing dry-powder bendamustine. The pharmaceutical formulations can be used for any disease that is sensitive to treatment with bendamustine, such as neoplastic diseases.