Abstract: The invention provides gastric residence systems for administration of adamantane-class drugs or pharmaceutically acceptable salts thereof, such as memantine or pharmaceutically acceptable salts thereof, and methods for making and using such systems. The systems provide extended release of drug, reducing the frequency with which the drug must be administered to the patient. The gastric residence systems, or components of gastric residence system such as segments or elongate members of gastric residence systems, can have release rate-modulating films, which provide good control over release of adamantane-class drugs or pharmaceutically acceptable salts thereof present in the gastric residence system. Some embodiments of the films can provide resistance against burst release of adamantane-class drugs or pharmaceutically acceptable salts thereof upon exposure to alcohol.

Abstract: Described herein are systems for the enteric delivery of therapeutic agents, and methods of administering a therapeutic agent to a patient by orally administering an enteric delivery system. The enteric deliver system includes one or more carrier members comprising a carrier polymer and a therapeutic agent, and the system is configurable in a compacted configuration and an expanded configuration, and is sized to maintain contact with the intestinal wall of the small intestine by applying an outwardly directed pressure to the intestinal wall and transport at least a portion of the therapeutic agent across the enteric mucosa of the small intestine.

Abstract: The invention provides gastric residence systems, or components of gastric residence system such as segments or elongate members of gastric residence systems, with release rate-modulating films and methods for making and using such systems. The release rate-modulating films provide good control over release of agents (such as therapeutic, diagnostic, or nutritional agents) present in the gastric residence system. The films also permit higher drug loading in the gastric residence systems and components of gastric residence systems while maintaining good control over release of agents. Some embodiments of the films can provide resistance against burst release of agent upon exposure to alcohol.

Abstract: The invention provides gastric residence systems with specifically tailored architectures and methods for making such systems. The components of the gastric residence systems can be manufactured by three-dimensional printing or by co-extrusion. The ability to construct precise architectures for the systems provides excellent control over drug release, in vivo stability, and residence time of the systems.

Abstract: The invention provides gastric residence systems for administration of adamantane-class drugs or pharmaceutically acceptable salts thereof, such as memantine or pharmaceutically acceptable salts thereof, and methods for making and using such systems. The systems provide extended release of drug, reducing the frequency with which the drug must be administered to the patient. The gastric residence systems, or components of gastric residence system such as segments or elongate members of gastric residence systems, can have release rate-modulating films, which provide good control over release of adamantane-class drugs or pharmaceutically acceptable salts thereof present in the gastric residence system. Some embodiments of the films can provide resistance against burst release of adamantane-class drugs or pharmaceutically acceptable salts thereof upon exposure to alcohol.

Abstract: The present invention relates to a method for the sustained release in vivo of a biologically active labile agent comprising administering to a subject in need of treatment an effective amount of a sustained release composition comprising a biocompatible polymer having the biologically active labile agent incorporated therein, and a corticosteroid wherein the labile is released for a period of at least about two weeks. It is understood that the corticosteroid is present in an amount sufficient to modify the release profile of the biologically active labile agent from the sustained release composition. Pharmaceutical compositions suitable for use in the method of the invention are also disclosed.

Abstract: Injectable compositions having improved injectability. The injectable compositions include microparticles suspended in an aqueous injection vehicle having a viscosity of at least 20 cp at 20° C. The increased viscosity of the injection vehicle that constitutes the fluid phase of the suspension significantly reduces in vivo injectability failures. The injectable compositions can be made by mixing dry microparticles with an aqueous injection vehicle to form a suspension, and then mixing the suspension with a viscosity enhancing agent to increase the viscosity of the fluid phase of the suspension to the desired level for improved injectability.

Abstract: Injectable compositions having improved injectability. The injectable compositions include microparticles suspended in an aqueous injection vehicle having a viscosity of at least 20 cp at 20° C. The increased viscosity of the injection vehicle that constitutes the fluid phase of the suspension significantly reduces in vivo injectability failures. The injectable compositions can be made by mixing dry microparticles with an aqueous injection vehicle to form a suspension, and then mixing the suspension with a viscosity enhancing agent to increase the viscosity of the fluid phase of the suspension to the desired level for improved injectability.

Abstract: Microparticles that include a bisphosphonate and a polymer are produced by a method that includes forming a water-in-oil emulsion by mixing an aqueous solution of the bisphosphonate with a combination of a biocompatible polymer and a polymer solvent. At least one aqueous liquid can be mixed with the water-in-oil emulsion to form a water-in-oil-in-water emulsion and to extract the polymer solvent from the polymer, thereby forming the microparticles. Methods of treating a patient in need of therapy include administering the microparticles described to the patient. In one embodiment, the microparticles are formulated for the sustained release of the bisphosphonate.