Developing a Biorelevant Dissolution Method for an Extrudable Core System (ECS) Osmotic Tablet.

Abstract

The objective of this work is to develop a biorelevant dissolution method to support the clinical study for In Vitro In Vivo Correlation (IVIVC) of the first commercially approved single-layer extrudable core system (ECS) osmotic tablet - the 11mg tofacitinib modified-release tablet. The dissolution conditions were selected through analysis of experimental work including several designed experiments (DoE). The Apparatus 2 (paddles) was selected over the Apparatus 1 (baskets) to minimize the dissolution test variability. The paddle speed was kept at 50rpm to be conservative and because higher paddle speed did not offer statistically significant improvement in dissolution test variability. The buffer of 50mM potassium phosphate at pH 6.8 was selected over other buffers at lower or acid pH as the in vivo drug release is expected to occur in the small intestinal region, where the pH is approximately neutral. Finally, the statistically designed experiments proved that use of the Japanese basket sinkers was effective in reducing dissolution variability and eliminating the artificial shift in dissolution profile caused by final pink color-coated tablets sticking to the dissolution vessel. Discriminatory power of the method was verified and the method was validated per ICH and FDA guidelines. Since a Level A IVIVC is established from the analysis of the results of both in vivo clinical study and in vitro dissolution testing, the method is proven to be biorelevant. It also serves a suitable quality control dissolution method.