Disclosed herein are polymeric implants and controlled release drug delivery systems to provide high drug loading and long-acting drug release. Provided herein are methods for making the same. Methods of administering pharmacologically active agents via the disclosed polymeric implants and controlled release drug delivery systems are also provided.

A dosage form contains a polymeric matrix, containing one or more polymer(s) and a biologically active ingredient. The polymeric matrix contains 10% by weight or more of the one or more polymer(s). The one or more polymer(s) are polymerized from a monomer mixture containing the monomers (a) 70 to 95% by weight of 2-ethylhexyl methacrylate (EHMA) and ethyl methacrylate (EMA), or 2-ethylhexyl methacrylate (EHMA) and methyl methacrylate (MMA); (b) 0 to 25% by weight of a C.sub.2 to C.sub.6 hydroxy-alkylester of acrylic acid or methacrylic acid; and (c) 2.5 to 20% by weight of a C.sub.2 to C.sub.8 alkyl ester of acrylic acid or of methacrylic acid with a quaternary cationic group in the alkyl group.

This invention relates to a bioerodible drug delivery device that can be implanted in a patient at or near an area in need of treatment. The bioerodible drug delivery device can be used to deliver a wide variety of different pharmaceutically active agents, and can do so at a controlled rate and over an extended period of time. The bioerodible drug delivery device includes a bioerodible polymeric outer housing with one or more delivery ports for delivering the pharmaceutically active agent(s) contained therein. The polymer used as the bioerodible polymeric outer housing is not substantially degraded during the dosing of the pharmaceutically active agent(s) in the bioerodible drug delivery device. The invention also provides methods of making the bioerodible drug delivery device and using it for the treatment of diseases and disorders.

A tamper resistant drug dosage is described. The drug dosage form includes a matrix polymer, a scaffold polymer, and a therapeutic agent, and the porosity of the drug dosage form is less than 10%. Methods for making and using the tamper resistant drug dosage forms are described.

Pharmaceutical compositions suitable for long-term storage at room temperature are described. The pharmaceutical composition comprises the compound of formula (I) and can be used for the treatment of steatohepatitis. Also described are methods for preparing the pharmaceutical composition and methods of treatment using the pharmaceutical compositions.

Biocompatibie intraocular implants include a prostamide component and a biodegradable polymer that is effective in facilitating release of the prostamide component into an eye for an extended period of time. The prostamide component may be associated with a biodegradable polymer matrix, such as a matrix of a two biodegradable polymers. The implants may be placed in an eye to treat or reduce a at least one symptom of an ocular condition, such as glaucoma.

Biocompatible intraocular implants include a tyrosine kinase inhibitor and a biodegradable polymer that is effective to facilitate release of the tyrosine kinase inhibitor into the vitreous of an eye for an extended period of time. The therapeutic agents of the implants may be associated with a biodegradable polymer matrix, such as a matrix that is substantially free of a polyvinyl alcohol. The implants can be placed in an eye to treat or reduce the occurrence of one or more ocular conditions.

The invention provides biodegradable implants sized for implantation in an ocular region and methods for treating medical conditions of the eye. The implants are formed from a mixture of hydrophilic end and hydrophobic end PLGA, and deliver active agents into an ocular region without a high burst release.

The invention relates to flecainide formulations and to methods of their administration. Specifically, the invention relates to combination formulations of a flecainide and a rate control agent for treating various heart diseases, and to controlled-release flecainide formulations, including such formulations in combination with rate control agents.

A dosage form of controlled release at specific gastrointestinal sites is provided. The dosage form includes a shell defining a first and a second compartment, a first active pharmaceutical ingredient (API) loaded in the first compartment, and a second API loaded in the second compartment, wherein the first API and the second API can be the same or different. The shell includes a first material soluble in a first gastrointestinal site and a second material soluble in a second gastrointestinal site.