Preparation of Low Glycemic Rice and Comparison of Its Physicochemical Properties, Cooking Characteristics, Starch Digestibility and Microstructure with Raw Rice (Swarna Cv)

Journal of Food Science and Engineering Pub Date : 2022-12-21 DOI:10.37256/fse.4120231882

Gorenand Prasad Yadav, Chandrakant Genu Dalbhagat, H. Mishra

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引用次数: 1

Abstract

Rice broken and low glycemic ingredients such as millet and pseudocereal were used to formulate the multigrain flour using Linear Programming (LP) in MATLAB to prepare Low Glycemic Rice (LGR). The constraints considered in LP were: glycemic index (GI < 55), protein (≥ 10 g/100 g), iron (≥ 6 mg/100 g) and carbohydrate (≤ 70 g/100 g). A laboratory-scale co-rotating twin-screw extruder was used to produce the LGR. Proximate composition, mineral content, physicochemical properties, cooking characteristics, starch digestibility, pasting properties and microstructure of LGR were analyzed and compared with raw rice (Swarna Cv.). The LGR was characterized as a highly nutritious low glycemic food (GI value of 55.03) with high protein (12.88%), fiber (2.22%), fat (2.28%), ash (1.38%), and iron content (16.11 mg/100 g) as compared to the raw rice. The cooking losses (14.23%), water solubility index (7.21%) and total colour difference (25.14) of LGR were significantly higher, whereas cooking time (8.25 minutes) was significantly lower, which may be due to several cracks and voids as observed in SEM analysis. Moreover, the LGR showed significantly different pasting properties compared to raw rice.

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低糖大米的制备及其与生米(Swarna Cv)理化性质、蒸煮特性、淀粉消化率和微观结构的比较

利用MATLAB中的线性规划(LP)，以碎米和谷子、假谷物等低糖原料配制杂粮粉，制备低糖大米(LGR)。LP考虑的约束条件为:血糖指数(GI < 55)、蛋白质(≥10 g/100 g)、铁(≥6 mg/100 g)和碳水化合物(≤70 g/100 g)。LGR采用实验室规模的同向旋转双螺杆挤出机生产。分析了LGR的近似组成、矿物质含量、理化性质、蒸煮特性、淀粉消化率、糊化性质和微观结构，并与生米(Swarna Cv.)进行了比较。与生米相比，LGR具有高蛋白质(12.88%)、高纤维(2.22%)、高脂肪(2.28%)、高灰分(1.38%)和高铁(16.11 mg/100 g)的高营养低血糖食品(GI值为55.03)。LGR的蒸煮损失(14.23%)、水溶性指数(7.21%)和总色差(25.14)显著较高，蒸煮时间(8.25 min)显著较低，这可能是由于扫描电镜观察到的一些裂缝和空隙造成的。此外，与生米相比，LGR的糊化性能有显著差异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Food Science and Engineering

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