14 Foods containing elevated levels of health functional components such as resistant starch and 15 polyphenolic antioxidants may have beneficial effects on human health. Pasta incorporating 16 either red sorghum flour (RSF) or white sorghum flour (WSF) each at 20%, 30% and 40% 17 substitution of durum wheat semolina (DWS) was prepared and compared to pasta made from 18 100% DWS (control) for content of starch fractions, phenolic profile and antioxidant capacity, 19 before and after cooking. Total, digestible and resistant starch contents were determined by the 20 AOAC method; individual phenolic acids and anthocyanins by reverse phase-HPLC analysis;21 total phenolic content by the Folin-Ciocalteu method and antioxidant capacity by the ABTS 22assay. The addition of both RSF and WSF increased the resistant starch content, bound phenolic 23 acids, total phenolic content and antioxidant capacity at all incorporation levels compared to the 24 control pasta; while free phenolic acids and anthocyanins were higher in the RSF-containig pasta 25 only. Cooking did not change the resistant starch content of any of the pasta formulations.
26Cooking did however decrease the free phenolic acids, anthocyanins, total phenolic content and 27 antioxidant capacity and increased the bound phenolic acids of the sorghum-containing pastas.
28The study suggests that these sorghum flours may be very useful for the preparation of pasta with 29 increased levels of resistant starch and polyphenolic antioxidants. 30 31
The results demonstrated that pasta containing red wholegrain sorghum flour enhanced antioxidant status and improved markers of oxidative stress in healthy subjects.
Whole grain sorghum is a valuable source of resistant starch and polyphenolic antioxidants and its addition into staple food like pasta may reduce the starch digestibility. However, incorporating nondurum wheat materials into pasta provides a challenge in terms of maintaining cooking quality and consumer acceptability. Pasta was prepared from 100% durum wheat semolina (DWS) as control or by replacing DWS with either wholegrain red sorghum flour (RSF) or white sorghum flour (WSF) each at 20%, 30%, and 40% incorporation levels, following a laboratory-scale procedure. Pasta samples were evaluated for proximate composition, in vitro starch digestibility, cooking quality, and consumer acceptability. The addition of both RSF and WSF lowered the extent of in vitro starch digestion at all substitution levels compared to the control pasta. The rapidly digestible starch was lowered in all the sorghum-containing pastas compared to the control pasta. Neither RSF or WSF addition affected the pasta quality attributes (water absorption, swelling index, dry matter, adhesiveness, cohesiveness, and springiness), except color and hardness which were negatively affected. Consumer sensory results indicated that pasta samples containing 20% and 30% RSF or WSF had acceptable palatability based on meeting one or both of the preset acceptability criteria. It is concluded that the addition of wholegrain sorghum flour to pasta at 30% incorporation level is possible to reduce starch digestibility, while maintaining adequate cooking quality and consumer acceptability.
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