In Vitro Digestibility and Bioaccessibility of Nutrients and Non-Nutrients Composing Extruded Brewers' Spent Grain.
Maria Belen Gutierrez-BarrutiaSonia CozzanoPatricia ArciaMaría Dolores Del CastilloPublished in: Nutrients (2022)
This study aimed to evaluate the effect of the extrusion process on the bioaccessibility of brewers' spent grain (BSG) nutrients (carbohydrates and proteins) and non-nutrients (bioactive compounds). BSG and extruded BSG (EBSG) were digested in vitro simulating human oral-gastro-intestinal digestion and colonic fermentation. The duodenal bioaccessibility of glucose, amino acids and phenolic compounds was analyzed. The fermentability of the dietary fiber was assessed by analysis of short-chain fatty acids. Additionally, assessment of the bioaccessibility of phenolic compounds after colonic fermentation was undertaken. The antioxidant, anti-inflammatory and antidiabetic properties of the bioaccessible compounds were studied. Extrusion caused no change in the digestibility of gluten and glucose bioaccessibility ( p > 0.05). Moreover, the bioaccessibility of amino acids and phenolic compounds significantly increased ( p < 0.05) due to extrusion. However, higher short-chain fatty acid content was formed in colonic fermentation of BSG ( p < 0.05) compared to EBSG. The latter inhibited intracellular ROS formation in IEC-6 cells and showed anti-inflammatory properties in RAW264.7 cells. With respect to antidiabetic properties, glucose absorption was lower, and the inhibition of carbohydrases higher ( p < 0.05), in the presence of EBSG compared to BSG. The effects of EBSG and BSG digests on glucose transporters were not significantly different ( p > 0.05). In conclusion, extrusion positively affected the nutritional value and health-promoting properties of BSG.
Keyphrases
- health risk assessment
- heavy metals
- anti inflammatory
- fatty acid
- induced apoptosis
- amino acid
- blood glucose
- cell cycle arrest
- saccharomyces cerevisiae
- lactic acid
- public health
- cell death
- healthcare
- endothelial cells
- risk assessment
- drinking water
- dna damage
- endoplasmic reticulum stress
- sewage sludge
- signaling pathway
- cell proliferation
- adipose tissue
- skeletal muscle
- social media
- induced pluripotent stem cells
- pi k akt
- celiac disease