Login / Signup

Modulation of Postprandial Plasma Concentrations of Digestive Hormones and Gut Microbiota by Foods Containing Oat ß-Glucans in Healthy Volunteers.

Martin GottelandAlejandra ZazuetaJosé Luis PinoAndrea FresardVerónica SambraJuana CodoceoMaría José CiresXimena LópezJuan Pablo VivancoFabien Magne
Published in: Foods (Basel, Switzerland) (2023)
Cereal β-glucans are beneficial health ingredients that reduce cholesterolemia and postprandial glycaemia. However, their impact on digestive hormones and gut microbiota is not yet fully established. Two randomized, double-blind, controlled studies were conducted. In the first study, 14 subjects ingested a breakfast with or without β-glucan from oats (5.2 g). Compared to the control, β-glucan increased orocecal transit time ( p = 0.028) and decreased mean appetite score ( p = 0.014) and postprandial plasma ghrelin ( p = 0.030), C-peptide ( p = 0.001), insulin ( p = 0.06), and glucose ( p = 0.0006). β-glucan increased plasma GIP ( p = 0.035) and PP ( p = 0.018) without affecting leptin, GLP-1, PYY, glucagon, amylin, or 7α-hydroxy-4-cholesten-3-one, a biomarker of bile acid synthesis. In the second study, 32 subjects were distributed into 2 groups to ingest daily foods with (3 g/day) or without β-glucan for 3 weeks; stools were collected before/after treatment. No changes in fecal microbiota composition/diversity (deep sequencing) were detected with β-glucans. These results indicate that acute intake of 5 g β-glucan slows transit time and decreases hunger sensation and postprandial glycaemia without affecting bile-acid synthesis, these changes being associated with decreased plasma insulin, C-peptide, and ghrelin, and increased plasma GIP and PP. However, regular daily intake of 3 g β-glucan is not sufficient to have an effect on fecal microbiota composition.
Keyphrases