Development and Evaluation of Glyburide Fast Dissolving Tablets Using Solid Dispersion Technique

Abstract

Glyburide is a poorly water‐soluble oral hypoglycemic agent, with problems of variable bioavailability and bio‐inequivalence related to its poor water‐solubility. This work investigated the possibility of developing glyburide tablets, allowing fast, reproducible, and complete drug dissolution, by using drug solid dispersion in polyethylene glycol. Phase‐solubility studies were performed to investigate the drug‐carrier interactions in solution, whereas differential scanning calorimetry, X‐ray powder diffraction, and infrared spectroscopy were used to characterize the solid state of solid dispersions. The effects of several variables related to both solid dispersion preparation (cofusion or coevaporation technique, drug‐to‐carrier ratio, polyethylene glycol molecular weight) and tablet production (direct compression or previous wet‐granulation, tablet hardness, drug, and solid dispersion particle size) on drug dissolution behavior were investigated. Tablets obtained by direct compression, with a hardness of 7–9 Kp, and containing larger sized solid dispersions (20–35 mesh, i.e., 850–500 µm) of micronized glyburide in polyethylene glycol 6000 prepared by the cofusion method gave the best results, with a 135% increase in drug dissolution efficiency at 60 min in comparison with a reference tablet formulation containing the pure micronized drug. Moreover, the glyburide dissolution profile from the newly developed tablets was clearly better than those from various commercial tablets at the same drug dosage.