Rheological, Antioxidative, and Sensory Properties of Chinese Alkaline Noodle Prepared with Regular and Whole Wheat Flour

Abstract

Abstract: Chinese alkaline noodle (CAN) is one of popular staple foods in Asia. Whole wheat flour (WWF) is healthier than refined wheat flour (WF). This study investigated the effect of substitution level of WWF on physicochemical and sensory properties of CAN. Results showed that increasing WWF amount significantly reduced tensile strength (TS) and extensibility (E) of cooked CAN, but increased TS/E ratio from 6.05 to 13.22 mN/mm. High WWF substitution (>60 %) significantly increased cooking loss and decreased the elasticity of CAN. CAN prepared with WWF had darker, redder and yellower color than control. However, free and bound phenolics and DPPH radical scavenging capacity of CAN obviously increased with the amount of WWF. CAN with 0–40 % WWF had similar sensory scores in color, flavor, texture and overall preferences. The study suggests that healthy whole grain CAN with higher phytochemicals and acceptable eating quality can be produced by using 20–40 % WWF.