Thermodynamic and experimental analysis of drug nanoparticles preparation using supercritical thermal processing: Solubility of Chlorothiazide in different Co-solvents

Abstract

Background/purposeChlorothiazide is a well-known diuretic and an antihypertensive drug with poor solubility and permeability and thus low bioavailability. Producing nanoparticles of this drug via a suitable supercritical method can enhance its therapeutic efficiency. For this purpose, supercritical solubility of Chlorothiazide must be known. At 308- 338 K and 130- 290 bar, Majrashi obtained this parameter between the mole fraction of 0.417×10-5 to 1.012×10-5. The poor supercritical solubility of Chlorothiazide can be enhanced by adding a little polar co-solvent to scCO2. Model/designIn the current study, the solubility of this drug in the ternary systems of Chlorothiazide, scCO2, and different co-solvents of ethanol, DMSO, and acetone was measured. Also, the obtained experimental data were correlated by some empirical models presented by the research teams of González, Mendez-Santiago-Teja, Li, Soltani-Mazloumi, and Jouyban. FindingThe supercritical solubility of Chlorothiazide in the presence of ethanol, DMSO, and acetone was found in the mole fraction range of 1.115×10-5 to 11.895×10-5, 0.778×10-5 to 9.25×10-5, and 0.668 ×10-5 to 9.04×10-5, respectively. It has been shown that addition of these co-solvents can improve the supercritical solubility of Chlorothiazide, and in the meantime, ethanol with the greatest effect can increase it by about 2.02-11.75 times. Furthermore, the Joyban model has the most accuracy for the correlation of the obtained solubility data, and the data calculated by this model are more consistent with the experimental data. NoveltyFor the first time at this work, the effect of three different co-solvents of ethanol, DMSO, and acetone on the solubility of Chlorothiazide in scCO2 was studied both experimentally and theoretically.