In vitro digestion kinetics of excipients for lipid-based drug delivery and introduction of a relative lipolysis half life

Abstract

Background: Lipid-based drug delivery systems are widely used for enhancing the solubility of poorly water soluble drugs in the gastro-intestinal tract. Following oral intake, lipid systems undergo digestion in the stomach as well as the intestine. Lipolysis is here a complex process at the oil/water interface, influenced by numerous factors.Purpose: To study the digestibility of nine excipients often used in lipid-based drug delivery systems. In addition, we introduced a mathematical model to describe in vitro lipolysis kinetics. A relative lipolysis half life was defined using the reference excipient medium-chain triglycerides.Methods: Using pH-stat equipment, the NaOH consumption was determined in an in vitro lipolysis assay.Results: We identified two classes of excipients. Some additives were partially hydrolysed, whereas other excipients displayed complete lipolysis. For the latter class, a simplified mathematical model provided a good first approximation of initial lipolysis kinetics.Conclusions: Digestion characterization of excipients is important for the development of lipid-based delivery systems. The applied kinetic model and the concept of a relative lipolysis half life seemed to be promising tools for comparing in vitro lipolysis results.