RESUMEN
BACKGROUND: Current approaches to colonic drug delivery exploit one of two main physiological characteristics: the pH change or increase in bacterial numbers along the gastrointestinal tract. Here, we describe a new concept in targeted delivery, which combines these triggers to improve colonic delivery. AIM: To assess the in-vivo targeting performance of a novel colonic delivery coating comprising a mixture of pH-responsive enteric polymer (Eudragit S) and biodegradable polysaccharide (resistant starch) in a single layer matrix film. METHODS: Tablets (radio-labelled) were film-coated with the dual-mechanism coating and administered in a three-way crossover study to eight healthy volunteers (i) without food, (ii) with breakfast or (iii) 30 min before breakfast. The site of intestinal disintegration was assessed using gamma scintigraphy. RESULTS: The coated tablets were able to resist breakdown in the stomach and small intestine. Consistent disintegration of the dosage form was seen at the ileocaecal junction/large intestine. The site of disintegration remained unaffected by feeding. CONCLUSIONS: The dual-mechanism (pH/bacterial) coating provides colon-specificity. Each trigger mechanism has the capacity to act as a failsafe, ensuring appropriate targeting in the gastrointestinal tract. This platform technology has potential for systemic applications or the treatment of local disorders of the large intestine, such as inflammatory bowel disease.