Crystallization Kinetics in Fasted-State Simulated and Aspirated Human Intestinal Fluids

Abstract

To enhance the bioavailability of poorly soluble therapeutics, enabling formulations that generate supersaturation are currently of great interest. There is limited knowledge of how the gastrointestinal environment can influence the complex phase behavior of these systems, in particular, crystallization. Simulated media are generally used to mimic physiologically relevant fluids, although their predictability remains unknown for crystallizing systems since they are simplified models of the gastrointestinal fluids. The purpose of this study was to evaluate and compare how different simulated media, as well as aspirated intestinal fluid, impact the phase behavior of supersaturated solutions of two poorly soluble compounds, atazanavir and posaconazole, in fasted-state conditions. The onset of nucleation and progression of crystallization were found to be highly medium dependent. In the aspirated fluid, the crystallization kinetics for both compounds was significantly reduced compared to commercial simulated media. The use of simple buffers or current simulated fluids as surrogates for intestinal fluids appears to require further verification when attempting to predict crystallization kinetics of supersaturated solutions, based on the observed lack of correlation between commercial media and human fluids. The findings highlight the importance of carefully considering the composition of in vitro testing media for assessing crystallization kinetics, particularly in the context of supersaturating formulations.