The role of solid state properties on the dissolution performance of flufenamic acid

Abstract

Flufenamic acid is a nonsteroidal anti-inflammatory drug characterized by a low solubility and a variable oral bioavailability. Flufenamic acid is present in the commercial products in two polymorphic enantiotropic forms (Form I and III). Bioinequivalence was observed for commercial solid dosage forms due to the different dissolution rate of batches. Aim of this work is the full characterization of the solid state properties of flufenamic acid in order to evidence reasons of its variable dissolution properties. Two different batches of pure drug obtained by different suppliers were fully characterized. In order to evaluate the effect of the technological processes used for tablet production, the powders were submitted to grinding, kneading, and compression. Thermal analysis and X-ray diffraction studies proved that the drug was provided by both suppliers as Form I, Form III is obtained by recrystallization from ethanol or ethanol/water of both batches and no changes were observed after the different mechanical treatments. No difference was observed between the two forms in terms of equilibrium solubility values. Dissolution rate studies evidenced a difference between the two batches due to their different particle size, which disappeared after sieving. Interestingly, a significant difference in terms of intrinsic dissolution rate and surface wettability of the two compacted powders was observed, even after sieving, probably related to a different behavior of the two powder samples under compaction. These results should be taken into account, during a tablet formulation, in order to obtain a reproducible dissolution performance of the drug, regardless of its original supplier.