Litcius/Paper detail

Incorporation of a novel leguminous ingredient into savoury biscuits reduces their starch digestibility: Implications for lowering the Glycaemic Index of cereal products

Gael Delamare de la Villenaise de Chenevarin, Peter Butterworth, Peter R. Ellis, Sandra E. Hill, Frederick J. Warren, Cathrina H. Edwards

2020Food Chemistry X44 citationsDOIOpen Access PDF

Abstract

Many carbohydrate foods contain starch that is rapidly digested and elicits a high Glycaemic Index. A legume ingredient (PulseON®) rich in Type 1 resistant starch (RS1) was recently developed; however, its potential as a functional ingredient when processed into a food product required assessment. PulseON® was used to replace 0, 25, 50, 75, and 100% of the wheat flour in a savoury biscuit recipe. In vitro starch digestion kinetics of biscuits and water-holding properties of ingredients were assessed. The RS1 in PulseON® did not appear to be structurally compromised during biscuit making. Replacing 50% wheat flour with PulseON® reduced the starch hydrolysis index of biscuits by nearly 60%. This seems to result from the ingredients’ impact on water availability for starch gelatinisation. Overall, these findings highlight the potential of using biscuits as a food vehicle for PulseON® to increase consumer intakes of legume protein, dietary fibre, and potentially low glycaemic starch.

Topics & Concepts

IngredientFood scienceStarchGlycaemic indexLegumeChemistryRecipeFood productsHydrolysisFunctional foodDigestion (alchemy)Wheat starchBiotechnologyGlycemic indexAgronomyBiologyBiochemistryChromatographyGlycemicInsulinFood composition and propertiesMicrobial Metabolites in Food BiotechnologyPhytase and its Applications