Wu, Na‐Na, Ma, Zhan‐Qian, Li, Huan‐Huan, Tian, Xiao‐Hong, Fang, Yong, and Tan, Bin
Background and objectives: Wholegrain foods have gained great attention due to their benefits on health. However, the texture, taste, and cooking quality of wholegrain foods are not good because of the bran in wholegrain. The objectives of this study were to improve the quality of brown rice noodles with rice bran that was treated by extrusion cooking. In this study, brown rice noodles with extruded rice bran (BRN‐ERB) were prepared to improve their quality compared to white rice noodles (WRN) and brown rice noodles with un‐extruded rice bran (BRN). Findings: The total phenolic, flavonoid, anthocyanin, and dietary fiber contents in BRN‐ERB were 44.87 mg GAE, 36.15 mg RE, 0.11 mg Cy‐3‐O‐G, and 4.48 g per 100 g, respectively, significantly higher than those in BRN and WRN. The BRN‐ERB had the highest antioxidant activities of DPPH, ABTS, and T‐AOC, the highest resistant starch content, and the lowest starch hydrolysis rate among the three types of rice noodles. Seven phenolics, six flavonoids, and three anthocyanins were individually detected in these rice noodles, and BRN‐ERB exhibited higher contents of protocatechuic acid, p‐coumaric acid, ferulic acid, and daidzein than BRN and WRN did. The cooking and textural qualities of BRN‐ERB were improved with lower optimum cooking time and cooking loss, and higher hardness, tensile strength, and elasticity compared to BRN. Conclusions: The brown rice noodles with extruded rice bran had higher contents of nutritional components than brown rice noodles with un‐extruded rice bran and white rice noodles, and better cooking and textural properties than brown rice noodles with un‐extruded rice bran. Significance and novelty: The results provided the evidences that brown rice noodles prepared with extruded rice bran might become functional foods from the sources of staple rice products. [ABSTRACT FROM AUTHOR]