Dissolution mechanism of diclofenac sodium from wax matrix granules.

Dissolution behavior of diclofenac sodium (DS) from wax matrix granules (WMGs) prepared using a twin-screw compounding extruder is closely related to swelling ability and solubility of the rate-controlling agent employed. A swellable and soluble (hydroxypropyl)-cellulose (HPC-SL) generates both an expansion of pores inside WMGs and a structural change observed as cracking on the surface of WMGs. These changes are confirmed by mercury porosimetry. Release of DS was increased with an increase in the amount of HPC-SL in WMGs, but only 35% of DS was released from WMGs containing 73% (w/w) NaCl at the 24 h point of the dissolution. Further, no cracking was observed on the surface of NaCl-containing WMGs. A linear relationship between mean dissolution time (MDT) of DS for WMGs containing different types of HPC (HPC-SL, -M, and -H) and swelling abilities suggests that release of DS could be directly controlled by swelling of HPCs. In addition to this result, an application of the exponential model (Mt/M infinity = kt(n)) introduced by Ritger and Peppas (J. Controlled Release 1987, 5, 23-36) to DS release indicates that case II release plays a critical role in HPC-SL-containing WMGs and Fickian release is predominant in NaCl-containing WMGs since the values of n of WMGs containing 73% (w/w) NaCl and 40% (w/w) HPC-SL are 0.41 and 0.71, respectively. These results suggest that proper selection of rate-controlling agents based on their physicochemical properties (such as swelling ability and solubility) is important in designing WMGs with desired dissolution profiles.