Effects of extrusion processing and gum content on physicochemical, microstructural and nutritional properties of fermented chickpea-based extrudates

Publication date: Available online 12 February 2020Source: LWTAuthor(s): Sibel Yağci, Aylin Altan, Faruk DoğanAbstractThe incorporation of legumes in convenient and healthy food products is one way for increasing their consumptions. However, developing of new products with high content of legume flour is limited due to their beany flavor. To overcome this issue, in the present study, fermentation of chickpeas with baker's yeast and yoghurt culture was used as a potential approach to improve the sensory and nutritional properties of the final extruded product. Fermented chickpea blends were extruded through a co-rotating twin screw extruder. Response surface methodology using a central composite design was used to investigate effects of extrusion conditions, including die temperature (130–150 °C) and screw speed (300–400 rpm) and locust bean gum content (1–4 g/100 g) on the physical and textural properties of the extruded products. Microstructural, sensory, antinutritional and nutritional properties of selected extrudates were also investigated. Regression analysis showed that extrusion parameters and gum content had a significant effect on the physical properties of extrudates but textural properties were mostly affected by changes in temperature and screw speed. Antinutritional factors were significantly reduced while starch and protein digestibility increased after extrusion. The use of both fermentation and extrusion technology allowed the production of high...
Source: LWT Food Science and Technology - Category: Food Science Source Type: research