Characterization and Dissolution Rate Studies of Hydrochlorothiazideß-Cyclodextrin Inclusion Complex Using Co-Grinding Technique

Abstract

The formation of hydrochlorothiazide inclusion complexes has been carried out to improve the physicochemical properties and increase the dissolution rate of hydrochlorothiazide. Inclusion complexes were made by co-grinding using ß cyclodextrin at a ratio of 1:1 mol, with variations in milling time, namely 30 minutes (F1), 1 hour (F2), and 2 hours (F3). The inclusion complexes formed were characterized by X-ray diffraction analysis, differential scanning calorimetry (DSC), Fourier transforms infrared (FT-IR), scanning electron microscopy, and dissolution tests. X-ray diffraction results showed a decrease in hydrochlorothiazide intensity, the DSC thermogram showed a decrease in endothermic peaks and enthalpy values, and FT-IR spectrum analysis showed that there was a chemical interaction between hydrochlorothiazide and ß-cyclodextrin. All characterization checks carried out met the requirements and confirmed an increase in the dissolution rate. The dissolution yield of hydrochlorothiazide was 41.711%, the physical mixture was 57.135%, the F1 inclusion complex was 59.52%, the F2 inclusion complex was 79.17%, and the F3 inclusion complex was 103.62%. This proves that the formation of inclusion complexes with the addition of ß-cyclodextrin can significantly increase the dissolution