Effect of quinoa (Chenopodium quinoa W.) flour supplementation in breads on the lipid profile and glycemic index: an in vivo study.

Quinoa is a gluten-free pseudocereal, with an excellent nutrient profile containing considerable amounts of fiber and minerals and rich in antioxidants such as polyphenols. The purpose of this research was to investigate the effects of quinoa bread on physical, chemical, bioactive components, glycaemic index (GI), and biochemical parameters. Human subjects aged between 20 and 50 years with the absence of morbid factors were fed daily with quinoa bread for 3 months in order to study its pre-and post-treatment effects on blood glucose, glycosylated haemoglobin, and lipid profile. The effort was made to incorporate the maximum amount of quinoa into the bread without compromising the acceptability of the bread. Of the 14 formulations, TQ13, containing 20% quinoa flour with 3% wheat bran, was selected for further analysis. The GI study revealed that quinoa bread peaked at 45 min with a gradual increase after ingestion of the bread and a steady decline thereafter. The observed value for blood glucose levels, before and after supplementation with quinoa-incorporated bread, was 86.96 ± 15.32 mg/dL and 84.25 ± 18.26 mg/dL, respectively. There was a statistically significant (p ≤ 0.05) decrease in levels of triglycerides, total cholesterol, low-density lipoprotein (LDL), and very-LDL (VLDL) level before and after supplementation. However, non-significant changes were observed for high-density lipoprotein levels from the pre- and post-treatment with the quinoa-incorporated bread. Quinoa-incorporated bread possessed low GI (42.00 ± 0.83) compared to control (69.20 ± 1.84) and long-term consumption proved to contain functional efficacies in terms of hypolipidemic effect.

Functional and antioxidant properties of cookies incorporated with foxtail millet and ginger powder.

The functional, sensory, nutritive, phytochemical and antioxidant properties of flours derived from wheat, foxtail millet and ginger along with the cookies formulated from these ingredients was studied. The foxtail millet (20, 30 and 40%) and ginger powder (5, 10 and 15%) blended wheat flours were investigated and compared to control (100% wheat flour). The increase in substitution levels of both the alternatives improved the functional properties of the composite flour and cookies formulated. Sensory analysis revealed that cookies prepared from 30% foxtail millet and 10% ginger powder had comparable scores. These were further subjected to nutritive and phytochemical analyses. The results revealed that cookies formulated using both the alternatives had reasonable proximate composition comparable to control. The substituted cookies had higher total soluble phenolic content and antioxidant capacities in terms of DPPH and ABTS scavenging potential and a strongly positive correlation was observed between the total soluble phenolic content and antioxidant capacities in composite flour and the cookies formulated from the flours. Overall the addition of foxtail millet flour (30%) and ginger powder (10%) improved the nutritional and phenolic linked antioxidant potential which can lead to shelf life extension and enhanced health benefits.