Development and optimization of osmotically controlled drug delivery system for poorly aqueous soluble diacerein to improve its bioavailability.

In an attempt to improve the low oral bioavailability of Diacerein (DCN), the combination of a ternary solid dispersion and an asymmetric osmotic pump system had been designed to enhance solubility and to control DCN delivery. Ternary DCN solid dispersion was prepared by melting fusion method using surfactant polymers, and carrier (Pluronic PF127, Solutol HS15, and PEG 35 K) and this DCN solid dispersion powder with the proper amount of excipients were compressed and coated with OpadryCA to develop a Semi-Permeable and Asymmetric Osmotic Pump tablets. The ternary DCN solid dispersion by using surfactant polymers (Pluronic F127 and Solutol HS 15) with a ratio of 1:1 was displayed market significant improvement in saturated solubility (70.2 ± 4.14 µg/ml) and fast dissolution rate (Q = 79.28 ± 3.1% and IDR = 5.25 ± 0.19 ml/min) in comparison to pure DCN. Moreover, the optimized asymmetric osmotic pump tablet with following parameters; 3% w/v Opadry CA coat concentration, 1% w/w HPMC E15 gelling polymer and 35.8%w/w NaCl Osmogen concentration, was displayed control release of DCN at zero-order kinetic (R = 0.977) for up to 24 h(s). The study conducted on rabbits was revealed a significant enhancement in the bioavailability of the optimized osmotic pump (28.84 ± 3.32 ng.hr/ml) compared to DCN dispersion (10.39 ± 1.45 ng.hr/ml). In conclusion, the approach of enhancing solubility and wet-ability in accompany with optimized asymmetric osmotic pump system could serve as a promising delivery system and a way to improve the bioavailability of poorly aqueous soluble drugs.