The Influence of Cosolvent Polarity on the Flow Properties of Hydroalcoholic Gels. Empirical Models

Abstract

The aim of this study was to investigate the influence of cosolvent polarity on the rheological flow properties of aqueous and hydroalcoholic gels obtained from the Carbopol^® Ultrez^TM 10 base and used for topical applications. Specifically, we have examined the effect of pH (range 4.0—7.0) on the consistency and flow properties of dispersed systems in water and mixtures—15 : 85% v/v of methanol : water, ethanol : water, n-propanol : water and n-butanol : water—at a constant polymer concentration of 0.3% w/w. The gels, which had decreasing polarity values in the jellifying medium, showed qualitatively similar flow behavior, characteristic of pseudoplastic systems, and all of the flow curves were adjusted to the Ostwald model. Sigmoidal dose response functions were calculated to describe the flow and consistency indexes as a function of pH. As a result, the influence of alcohol polarity on the polymer network has been assessed meaningfully using the empirical parameters obtained: maximum consistency index value (k_max), pH value required for 50% development of polymer network (pH₅₀), and asymptotic flow index value (n_min) for the fully structured gels.