Ikusi/ Ireki
Izenburua
Optimized germinated soybean/cornstarch extrudate and its in vitro fermentation with human inoculumEgilea
Bertsioa
Bertsio argitaratuaDokumentu-mota
ArtikuluaBahituraren amaiera data
2140-10-03Hizkuntza
IngelesaEskubideak
© Association of Food Scientists & Technologists (India)Sarbidea
Sarbide bahituaArgitaratzailearen bertsioa
https://doi.org/10.1007/s13197-019-04116-7Non argitaratua
Journal of Food Science and Technology n. 3, vol. 57, n. art. 848Lehenengo orria
848Azken orria
857Argitaratzailea
Springer Nature LinkGako-hitzak
Short-chain fatty acids
Resistant starch
Extrusion
fermentation ... [+]
Resistant starch
Extrusion
fermentation ... [+]
Short-chain fatty acids
Resistant starch
Extrusion
fermentation
Soybean [-]
Resistant starch
Extrusion
fermentation
Soybean [-]
Laburpena
The aim of this work was to optimise a soybean/cornstarch extrudate by adjusting a central composite
design and to maximise a product with a high protein and
resistant starch (RS) content by evaluat ... [+]
The aim of this work was to optimise a soybean/cornstarch extrudate by adjusting a central composite
design and to maximise a product with a high protein and
resistant starch (RS) content by evaluating the indigestible
fractions through in vitro colonic fermentation and production of short-chain fatty acids (SCFAs) with potential
health benefits. According to the response surface analysis
and RS maximisation results, an optimisation of the independent variables was obtained as follows: 32.5% feed
moisture, 144 C extrusion temperature and a proportion of
44% germinated soybean flour and 56% cornstarch. A
product with a 2.11% expansion index, 6.25 N hardness, a
glycaemic index of 49 and 12% resistant starch was
obtained. The optimised extrudate showed a 36% indigestible fraction and high fermentability with respect to
that of the lactulose control. Furthermore, the decrease in
pH was inversely proportional to the production of SCFAs
and the volume of gas generated. Acetic, propionic, and
butyric acids were produced at a molar ratio of 62:27:11,
while the highest SCFA concentrations were found 48 h
after incubation. The RS of the optimised extruder was a
viable substrate for in vitro colonic fermentation, suggesting that it is a good food source to produce SCFAs,
which could exert an effect on the regulation of lipid and
glucose metabolism [-]


















