Noodle Production for Diabetics from Modified Green Banana Starch by Phosphate Cross‐Linking

Starch Pub Date : 2024-07-10 DOI:10.1002/star.202400001
Minh‐Tan Vu, Kim‐An Thi Nguyen, Mai‐Huong Thi Pham, Hong‐Nhung Thi Le, Ngoc‐Thanh Nguyen, Thanh‐Tung Nguyen, Thu‐Ha Thi Pham, Trung‐Duc Nguyen, Ngoc‐Tuan Nguyen, Phan‐Hang Nguyen
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Abstract

The development of Green banana (GB) starch in prebiotic foods to address health problems such as diabetes. It is modified by phosphate cross‐linking to increase the resistant starch content, improve functional properties, and reduce digestible starch consumption. The starch is modified using a mixture of sodium trimetaphosphate (STMP) and sodium tripolyphosphate (STPP) with 6 to 12 wt%ratios in the presence of sodium sulfate. The results showed an increase in phosphorus content from 0.18% to 0.45% corresponding to the increase in sodium trimetaphosphate/sodium tripolyphosphate ratios. Resistant starch reached 60 wt% after increasing the concentration of phosphate agent above 10 wt% and rapidly digestible starch decreased significantly. Accordingly, the physicochemical properties of starch changed significantly. Phosphate cross‐linking led to disruption of the crystalline structure of starch granules and fragmentation, reducing enthalpy and increasing gelatinization temperature. The oil and water absorption and freeze‐thaw stability of treated starch increased. While water absorption and solubility index of starch decreased significantly as the result of phosphate cross‐linking. Modified starch is used for the production of rice noodles. From 10 to 30 wt% of 10P modified starch mixed, cooking fracture rate is not more than 10% and resistant starch content is over 41 wt%.
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通过磷酸盐交联法利用改性绿香蕉淀粉为糖尿病患者生产面条
开发益生元食品中的绿香蕉(GB)淀粉,以解决糖尿病等健康问题。它通过磷酸盐交联改性,以增加抗性淀粉含量、改善功能特性并减少可消化淀粉的消耗。在硫酸钠存在的情况下,使用三偏磷酸钠(STMP)和三聚磷酸钠(STPP)的混合物对淀粉进行改性,其比例为 6 至 12 wt%。结果表明,随着三偏磷酸钠/三聚磷酸钠比率的增加,磷含量从 0.18% 增加到 0.45%。当磷酸盐剂的浓度增加到 10 wt%以上时,抗性淀粉达到 60 wt%,而快速消化淀粉则显著下降。相应地,淀粉的理化性质也发生了显著变化。磷酸盐交联导致淀粉颗粒的结晶结构破坏和破碎,降低了热焓,提高了糊化温度。经处理的淀粉的吸油量、吸水性和冻融稳定性都有所增加。而淀粉的吸水性和溶解度指数则因磷酸盐交联而明显下降。改性淀粉用于生产米粉。混合 10 至 30 wt%的 10P 变性淀粉,蒸煮断裂率不超过 10%,抗性淀粉含量超过 41 wt%。
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