Abstract
Irritable Bowel Syndrome (IBS) is a common disease characterized by alternate symptoms (diarrhea and constipation) and intestinal gas overproduction. A new medical device (Fibergone®), containing Partially Hydrolyzed Guar Gum (PHGG) and Simethicone (SM) has been proposed for managing patients with bowel disorders. PHGG acts also as a prebiotic so increasing the Short-Chain Fatty Acid (SCFA) production, useful for intestinal physiology. This in vitro study investigated the effects exerted by PHGG+SM on SCFA production and their intestinal absorption following in vitro digestive process and fermentation model. An in vitro model evaluated the digestive process and fermentation using simulated digestive fluids and a human intestinal epithelium in vitro model derived from based on intestinal adenocarcinoma Caco-2 cells (ATCC, HTB-37TM) and organized as a functional monolayer on Transwell® inserts. PHGG+SM was added in experiments and compared with a control (non-treated). SCFA production and absorption were assessed. Viability and barrier integrity of the intestinal epithelium model were also evaluated. PHGG+SM significantly (p<0.05) increased SCFAs content after fermentation, indicating that this medical device is effectively fermented at the large intestine level. However, in relation to SCFAs bioavailability, their absorption did not increase compared to the non-treated condition in the light of the physiological contribution of SCFAs resulting from the microflora. PHGG+SM did not affect intestinal epithelium apparent permeability (Papp) and viability. This in vitro study documented that partially hydrolyzed guar gum combined with simethicone significantly affects short-chain fatty acids production and consequently could be fruitfully employed in managing patients with intestinal disorders.
Subject
Biochemistry (medical),Plant Science,General Biochemistry, Genetics and Molecular Biology