Development and Validation of Method for Determination ofIn VitroRelease of Retinoic Acid from Creams

Abstract

The objective of this study was to develop and validate an in vitro test method that can be used as a tool for accessing batch-to-batch uniformity of finished topical products. The studies were performed by utilizing topical creams containing the 13-cis isomer of retinoic acid. Various physicochemical factors which may affect drug release from topical cream formulations were evaluated including drug concentration, internal phase droplet size distribution, viscosity and the composition of the emulsion internal and external phases. Utilizing a modified Franz diffusion cell with a cellulose membrane, the in vitro drug release profile from various cream formulations was established The effect of varying the concentrations of various key ingredients by 30% does affect the viscosities and release rates compared to a standard formulation. However, there is no correlation between the viscosities and the release rates. No significant differences in pH and droplet size distribution were observed in these cream formulations compared to a standard formulation. The oil phase volume ratio appears to have the largest influence on the in vitro release of the drug. Intra- and inter-batch comparisons of the finished cream products show reproducible release profiles. Based on the results obtained in this study, when used together, both in vitro release and viscosity measurements may be useful as tools to assess batch-to-batch uniformity and consistent manufacturing of the finished cream product