Glibenclamide–malonic acid cocrystal with an enhanced solubility and bioavailability

Abstract

Objective The objective of the work is to enhance the solubility, dissolution, and pharmacokinetic properties of glibenclamide (GLB) via cocrystallization technique. Significance Glibenclamide is an oral hypoglycemic agent used for treating non-insulin-dependent (type II) diabetes mellitus. It exhibits poor aqueous solubility and oral bioavailability, thereby compromising its therapeutic effect. Therefore, utilizing cocrystal approach for enhancing the solubility will modulate the physicochemical properties of GLB without altering its molecular structure. Methods Cocrystal was prepared by solution crystallization method using coformer malonic acid. The cocrystal was characterized by differential scanning calorimetry (DSC), powder X-ray diffraction (PXRD), and Fourier transform infrared (FT-IR) studies. The prepared cocrystal was subjected to solubility, in vitro dissolution, and pharmacokinetic studies. Results The DSC endotherms, PXRD patterns, and the FT-IR spectra of the cocrystal established the formation of a cocrystal. The formation of eutectic mixture was refuted upon comparing the DSC endotherm and PXRD pattern of the cocrystal with that of the physical mixture. GLB showed a twofold enhancement in solubility and a significant improvement in the rate of dissolution (p < 0.05, independent t-test) after cocrystallization. The pharmacokinetic parameters on male Sprague Drawly rats showed 1.45 enhancement in AUC0–24 and 1.36-fold enhancement in the C max of GLB as compared to the pure drug. Conclusion These findings demonstrate that cocrystallization technique was able to tailor the solubility and dissolution profile of GLB leading to an enhanced pharmacokinetic property.