Macroscopic and microscopic food structural characteristics play an important role in product's technological properties and nutritional attributes. The effects of macroscopic (pasta shape, PS) and microscopic (flour particles, FP) structural attributes were independently investigated in gluten-free (GF) chickpea-corn-rice short pasta (50% chickpea) considering cooking quality, physicochemical attributes, thermal properties, in vitro digestibility of starch (IVSD) and protein (IVPD). Different PS (rigatoni, fusilli, fusilli piccolo, caserecce, gnocchetti sardi) and different chickpea FP (conventional, precooked, fine, coarse) were considered. With regards to PS effect, rigatoni-shaped pasta differed significantly from other PS having the longest cooking time, a harder and less adhesive texture, the highest gelatinization enthalpy, the lowest IVPD, and higher resistant starch content. The chickpea FP modulated the flour pasting properties and slightly impacted both pasta cooking quality and nutritional characteristics regarding IVSD and IVPD. This work suggested that pasta structural attributes, especially PS, can modify pasta cooking quality, physicochemical, and nutritional characteristics and should, therefore, be considered in rational product design to provide food products with desired properties.

Effect of “shape” on technological properties and nutritional quality of chickpea-corn-rice gluten free pasta

Suo, Xinying;Vittadini, Elena
2024-01-01

Abstract

Macroscopic and microscopic food structural characteristics play an important role in product's technological properties and nutritional attributes. The effects of macroscopic (pasta shape, PS) and microscopic (flour particles, FP) structural attributes were independently investigated in gluten-free (GF) chickpea-corn-rice short pasta (50% chickpea) considering cooking quality, physicochemical attributes, thermal properties, in vitro digestibility of starch (IVSD) and protein (IVPD). Different PS (rigatoni, fusilli, fusilli piccolo, caserecce, gnocchetti sardi) and different chickpea FP (conventional, precooked, fine, coarse) were considered. With regards to PS effect, rigatoni-shaped pasta differed significantly from other PS having the longest cooking time, a harder and less adhesive texture, the highest gelatinization enthalpy, the lowest IVPD, and higher resistant starch content. The chickpea FP modulated the flour pasting properties and slightly impacted both pasta cooking quality and nutritional characteristics regarding IVSD and IVPD. This work suggested that pasta structural attributes, especially PS, can modify pasta cooking quality, physicochemical, and nutritional characteristics and should, therefore, be considered in rational product design to provide food products with desired properties.
2024
262
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11581/478264
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