The cell structure and low glycaemic benefits of pulses are compromised by conventional flour-milling. Cellular chickpea powders ('CCPs') are a new alternative to pulse flours. Here we investigated the in vitro bioaccessibility of essential amino acids ('EAAs') from CCP-enriched bread products and determined the effect of their consumption on serum amino acid responses in healthy humans (n = 20, randomised cross-over design). Breads were prepared with 0, 30 and 60 % of the wheat flour replaced by CCP (intact cells containing encapsulated protein). We found that significant proportion of EAAs from encapsulated protein became bioaccessible during in vitro duodenal digestion, and that in vivo serum EAA responses from healthy human participants were significantly higher following consumption of CCP-enriched breads. Furthermore, the EAA profile of in vitro digestion products were well-correlated with in vivo peak serum EAAs responses. We conclude that CCP-enrichment of wheat bread improved the amount and diversity of bioavailable EAAs.
Keywords: Amino acids; Bioaccessibility; Bioavailability; INFOGEST in vitro digestion; Legume plant cells; Protein; Randomised controlled trial.
Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.