Abstract: This invention relates to a polyamide rate-modulated monolithic drug delivery system comprising at least one active compound and a biodegradable and biocompatible polyamide polymer. The polymer is selected for delivering, in use, the active compound, within a predetermined time frame depending on the biodegradable properties of the polymer, to a target organism or organisms. In one embodiment of the invention the polymer is modified by salting-out or crosslinking the polymeric material to achieve the desired biodegradability characteristics and, consequently, to control the release of the active compound.

Abstract: This invention relates to a heterogeneously configured multiparticulate drug delivery system for gastrointestinal delivery of at least one or a combination of active pharmaceutical compositions. The system comprises a multiplicity of enterosoluble or gastrosoluble multiparticulates loaded with the active pharmaceutical composition or compositions for the site-specific delivery of said active pharmaceutical composition or compositions to a specific region in the gastrointestinal tract of a human or animal body. The system can be supplied as reconstitutable granules which are reconstituted immediately before oral administration.

Abstract: This invention relates to an improved monolithic drug delivery dosage form which releases a pharmaceutically active agent at a predetermined rate. The dosage form comprises a salted-out or crosslinked polymer and a pharmaceutically active agent. The salted-out or crosslinked polymer functions to polymerically entangle the pharmaceutically active agent but, progressively relax on contact with an aqueous medium in use to release the pharmaceutically active agent at a predetermined rate.

Abstract: This invention relates to an oramucosal pharmaceutical dosage form in the form of a wafer. The wafer comprises a porous, hydroscopic, muco-adhesive polymeric matrix with at least one desired pharmaceutically active compound added thereto. The polymer is selected from a number of polymers having different dissolution rates and, in use when taken orally, the matrix adheres to an oramucosal surface to dissolve over a predetermined period of time to release the pharmaceutically active compound. The invention also extends to a method of manufacturing an oramucosal pharmaceutical dosage form in the form of a wafer which involves freeze drying or lyophilisation.

Abstract: The invention relates to biodegradable and implantable devices for the in situ delivery of a pharmaceutical composition to a human or animal that comprise a generally discoid body, having at least one aperture through which the body is anchorable by suture, and that are formed from biodegradable polymeric compositions. The invention relates to methods of manufacturing devices for the in situ delivery of a pharmaceutical composition to a human or animal that comprise a generally discoid body, having at least one aperture through which the body is anchorable by suture, and that are formed from biodegradable polymeric compositions. The invention relates to a therapeutic method that comprises inserting a biodegradable and implantable device that comprises a generally discoid body, having at least one aperture through which the body is anchorable by suture, and that is formed from a biodegradable polymeric composition, into a body cavity of a human or animal.

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: 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.