Formulation of Controlled Release Matrices by Granulation with a Polymer Dispersion

Abstract

The objective of this work was to incorporate an ethylcellulose-based controlled-release coating suspension (Surelease, Colorcon) within a tablet matrix to provide a release controlling mechanism. Anhydrous theophylline, chlorpheniramine maleate, and acetaminophen were selected as model drug entities. Surelease dispersion was incorporated as the granulating agent either to the drug entity alone or to a blended mixture of drug and filler. Control batches included simple aqueous granulations and direct compression mixtures. Tablets were prepared on a single stroke tablet press. Dissolution was performed by the USP Method I (rotating basket) in purified water for the granulations and the resulting tablets. The uncompressed granulations did not exhibit prolonged release. In general, tablets prepared with the polymer suspension as the granulating agent were non-disintegrating, and exhibited slower dissolution than the control tablets. Release profiles were affected by drug concentration and excipient levels. By the dissolution method selected, complete drug release for the various formulations ranged from less than 1 hour to greater than 12 hours. The use of the polymer dispersion appears to enhance the processing characteristics of some materials, and to provide the formulator with control over drug release.