Provided is a biodegradable drug delivery composition comprising: (i) a mixture of at least three different block copolymers, wherein each block copolymer is: (a) a biodegradable triblock copolymer having the formula: A.sub.v-B.sub.w-A.sub.x wherein A is a polyester and B is polyethylene glycol and v and x are from 1 to 3,000 and w is from 3 to 300 and v=x or vx; or (b) a biodegradable diblock copolymer having the formula: C.sub.y-A.sub.z wherein A is a polyester and C is an end-capped polyethylene glycol and y=2 to 250 and z=1 to 3,000; and wherein the mixture comprises at least one (a) and at least one (b); and the weight ratio between (a) and (b) is 1:19 to 5:1; and for at least one of the copolymers according to (a) or (b) A is poly(lactic-co-glycolic acid) (PLGA); and (ii) at least one pharmaceutically active ingredient.

The present invention provides a biodegradable drug delivery composition comprising a mixture of at least two block copolymers taken among triblock and diblock copolymers comprising: (a) a biodegradable triblock copolymer having the formula: A.sub.v-B.sub.w-A.sub.x wherein A is a polyester and B is polyethylene glycol and v and x are from 1 to 3,000 and w is from 3 to 300 and v=x or vx; (b) a biodegradable diblock copolymer having the formula: C.sub.y-A.sub.z wherein A is a polyester and C is an end-capped polyethylene glycol and y and z are the number of repeat units with y=2 to 250 and z=1 to 3,000; wherein the weight ratio between (a) and (b) is 1:19 to 5:1; and for at least one of the copolymers according to (a) or (b) A is poly(-caprolactone-co-lactide); and (c) at least one pharmaceutically active ingredient.

The present invention relates to a solid extended release pharmaceutical dosage form, comprising a mixture in the form of an extended release matrix formulation, the mixture comprising at least: (1) at least one poly(e-caprolactone), and (2) at least one polyethylene oxide, and (3) at least one active agent.

The present invention provides a biodegradable drug delivery composition comprising: (i) a mixture of at least three different block copolymers, wherein each block copolymer is: (a) a biodegradable triblock copolymer having the formula: A.sub.v-B.sub.w-A.sub.x wherein A is a polyester and B is polyethylene glycol and v and x are the number of repeat units from 1 to 3,000 and w is the number of repeat units from 3 to 300 and v=x or vx; or (b) a biodegradable diblock copolymer having the formula: C.sub.y-A.sub.z wherein A is a polyester and C is an end-capped polyethylene glycol and y and z are the number of repeat units with y=2 to 250 and z=1 to 3,000; and wherein the mixture comprises at least one (a) and at least one (b); and the weight ratio between (a) and (b) is 1:19 to 5:1; and (ii) at least one pharmaceutically active ingredient.

The present invention relates to a dosage form comprising at least one functionalized calcium carbonate-comprising material (FCC) and at least one hot melt extruded polymer resin, a method for producing same, a pharmaceutical, nutraceutical, cosmetic, home and personal care product comprising the dosage form and the uses thereof.

A sterile pharmaceutical dosage form which comprises an ester capped lactide polymer, glycolide polymer or a lactide-glycolide copolymer hypercompressed with an active pharmaceutical ingredient wherein said sterile pharmaceutical dosage form has been sterilized with an electron beam and a method of preparing said sterile pharmaceutical dosage form.

Biocompatible, bioerodible implants and microspheres include latanoprost and a biodegradable polymer effective, when placed intraocular (such as into the subtenon space) to treat glaucoma.

The present invention relates to a technical field of pharmaceutical preparation, in particular to a preparation method of naltrexone implants, including the following steps: (1) dissolving naltrexone and polylactic acid in an organic solvent to form naltrexone microspheres, and drying; (2) placing the naltrexone microspheres in a heated tableting mold for tableting, and obtaining naltrexone implant tablets; (3) dissolving the polylactic acid in the organic solvent to obtain a coating solution, and placing the coating solution in a coating pool, and then immersing the naltrexone implant tablets in the coating solution, and drying in a suspended state.

The invention discloses naltrexone implantable tablets which are devoid of metal salts and corticosteroids, and which provide consistent and controlled amount of naltrexone for 3 months or more; also disclosed is methods of treatment comprising the implants and methods of sterilization of the implants.

A sterile pharmaceutical dosage form which comprises an ester capped lactide polymer, glycolide polymer or a lactide-glycolide copolymer hypercompressed with an active pharmaceutical ingredient wherein said sterile pharmaceutical dosage form has been sterilized with an electron beam and a method of preparing said sterile pharmaceutical dosage form.