Abstract: 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.

Abstract: Disclosed herein is a oral extended release dosage form comprising a plurality of granules of an effective amount of a pharmaceutically active compound, at least one amino acid, and an intragranular polymer in which the granule is dispersed within a hydrophilic extragranular polymer matrix which is more rapidly hydrating than the intragranular polymer. The amino acid is selected for hydropathy characteristics depending on solubility characteristics of the active compound.

Abstract: The disclosed invention is a method and composition for improving the bioavailability of a pharmaceutically active ingredient comprising an oral dosage form consisting essentially of a granulation of active ingredient, amino acid, and hydrophilic polymer, wherein the granulation is dispersed in an immediate release or extended release excipient.

Abstract: The invention is a delivery system comprising a first outer zone which partially surrounds an inner core, a second outer zone which also partially surrounds the core, and the outer zones together form a continuous heterogeneous layer fully surrounding the core. The delivery system is particularly suitable for orally administered multiple drug delivery or multiple rate delivery of biologically active ingredients to the gastrointestinal environment of humans or other animals.

Abstract: Disclosed herein is a oral extended release dosage form comprising a plurality of granules of an effective amount of a pharmaceutically active compound, at least one amino acid, and an intragranular polymer in which the granule is dispersed within a hydrophilic extragranular polymer matrix which is more rapidly hydrating than the intragranular polymer. The amino acid is selected for hydropathy characteristics depending on solubility characteristics of the active compound.

Abstract: Disclosed herein is a oral extended release dosage form comprising a plurality of granules of an effective amount of a pharmaceutically active compound, at least one amino acid, and an intragranular polymer in which the granule is dispersed within a hydrophilic extragranular polymer matrix which is more rapidly hydrating than the intragranular polymer. The amino acid is selected for hydropathy characteristics depending on solubility characteristics of the active compound.

Abstract: Disclosed herein is a tableted oral extended release dosage form comprising a plurality of granules of an effective amount of a pharmaceutically active compound, at least one amino acid, and an intragranular polymer in which the granule is dispersed within a hydrophilic extragranular polymer matrix which is more rapidly hydrating than the intragranular polymer. The amino acid is selected for hydropathy characteristics depending on solubility characteristics of the active compound.

Abstract: Disclosed herein is a tableted oral extended release dosage form comprising a plurality of granules of an effective amount of a pharmaceutically active compound, at least one amino acid, and an intragranular polymer in which the granule is dispersed within a hydrophilic extragranular polymer matrix which is more rapidly hydrating than the intragranular polymer. The amino acid is selected for hydropathy characteristics depending on solubility characteristics of the active compound.

Abstract: The present invention provides a new simple polymeric matrix tablet that delivers highly soluble drugs over long periods of time and is easy to manufacture. More specifically, the drug is first granulated with or encapsulated in a swellable polymer, such as a gum, to form a granule. This granule is disposed in a matrix of a more swellable, erodible polymer, such as HPMC or Polyethyleneoxide, and optionally includes pectin. The more swellable erodible polymer has a diffusion rate coefficient which is greater than the diffusion rate coefficient of the relatively less swellable polymer. It is this difference in diffusion rate coefficients between the first and second polymers which controls the rate of drug release and allows the system to approach zero order drug delivery over the drug release period. Other advantages which the present invention holds over existing systems including ease of manufacturing and reproducibility of release profiles under well defined hydrodynamic conditions.

Abstract: A swellable hydrophillic matrix tablet that delivers drugs in a controlled manner over a long period of time and is easy to manufacture. More specifically, the drug is disposed in a matrix composed of HPMC or polyethylene oxide, in the presence of a salt, which may be a combination of salts. Suitable salts include sodium bicarbonate, sodium chloride, potassium bicarbonate, calcium chloride, sodium bisulfate, sodium sulfite, and magnesium sulfate. Outward diffusion of the drug is controlled by an inwardly progressing hardening reaction between the salt and the dissolution medium, possibly also involving the drug itself.

Abstract: The present invention pertains to a controlled release pharmaceutical tablet having at least three layers, two barrier layers and one drug layer. The two barrier layers erode more quickly than the drug layer. All layers are formed from swellable, erodible polymers. The drug layer can have a different composition from the two barrier layers. The three layers can also differ in thickness. The pharmaceutical agent is contained in the drug layer and is released as the tablet layer swells to allow diffusion through the tablet layers, and as the layers erode. The barrier layers are made from swellable erodible polymers which erode away to reveal more of the drug layer, as the tablet dissolves.