Litcius/Paper detail

In vitro evaluation of the gastrointestinal delivery of acid-sensitive pancrelipase in a next generation enteric capsule using an exocrine pancreatic insufficiency disease model

Vincent Jannin, Cindy Duysburgh, Vanessa Gonzalez, Marlies Govaert, Marine Agisson, Massimo Marzorati, Nicolas Madit

2022International Journal of Pharmaceutics13 citationsDOIOpen Access PDF

Abstract

The dissolution characteristics of five capsules (Next Generation Enteric [NGE], Vcaps® Enteric [VCE], VCE DUOCAP® [VCE/VCE] system, Hard Gelatin Capsule [HGC] as negative control, and Creon® 10,000 U as market reference) were evaluated using an in vitro simulation of the stomach and upper intestinal tract with an acidic duodenal incubation (pH 4.5 for the first 10 min, pH 6 for the remaining 17 min) to simulate exocrine pancreatic insufficiency. Caffeine was a marker of capsule dissolution, and tributyrin to butyrate conversion measured pancrelipase activity. All capsules were filled with pancrelipase; the NGE, VCE, VCE/VCE, and HGC capsules also contained 50 mg caffeine. Caffeine was released first from the HGC capsule, followed by the VCE, NGE, and VCE/VCE capsules. Pancrelipase activity followed this trend and demonstrated a similar activity level over time for the NGE, VCE/VCE, and Creon® capsules. The HGC formulation confirmed gastric degradation of unprotected pancrelipase. NGE capsules provided similar protection to the simple fill formulation as observed for the complex formulation of the Creon® capsule in a setting with increased pepsin activity and may hasten the time needed to go from formula development to first-in-human studies for pH sensitive drugs or those requiring small intestine targeting.

Topics & Concepts

CapsuleMedicinePepsinGastroenterologyInternal medicineChemistryBiologyBiochemistryEnzymeBotanyGastroesophageal reflux and treatmentsDiabetes Treatment and ManagementGastrointestinal motility and disorders