Effect of Blending Ratio and Extrusion Operating Conditions on Nutritional Quality and Functional and Sensory Acceptability of Teff-Bulla-Based Complementary Food: A Response Surface Methodology Approach

IF 2.6 3区农林科学 Q2 FOOD SCIENCE & TECHNOLOGY

Journal of Food Quality Pub Date : 2024-06-12 DOI:10.1155/2024/1159007

Getu Weya Chewicha, Muhammed Adem Abdullahi, Tadele Andargie Wudineh, Tatek Tamiru Geletu, Neela Satheesh

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Abstract

The purpose of this study was to identify possible locally accessible cereals, tubers, and legumes for use in the extrusion of teff, bulla, and haricot beans to prepare inexpensive supplemental foods. This study used central composite rotatable design (CCRD) to assess the effects of specific processing parameters on response variables such as proximate composition and physical, functional, and sensory qualities of produced complementary food. The processing parameters included haricot bean blending ratios (BR) (10–30%), feed moisture content (FMC) (15–21%), and barrel temperature (BT) (120–160°C). The proximate composition of the complementary food ranged from 9.25 to 12.36% moisture content, 7.82 to 14.04% protein, 2.1 to 3.28% ash, 1.13 to 3.93% fiber, 1.17 to 3.12% fat, 65.40 to 78.25% carbohydrate, and 338.42 to 354.86 kcal/100 g energy. The predominant minerals and antinutritional factors ranged from 2.40 to 10.37 mg/100 g, 58.70 to 146.26 mg/100 g, 0.8 to 4.74 mg/100 g, 113.21 to 325.00 mg/100 g, and 16.54 to 44.62 mg/100 g for Fe, Ca, Zn, phytate, and tannin, respectively. The blending ratio and extrusion parameters demonstrated significant (p < 0.05) linear, quadratic, and interaction impacts on the physical and functional responses, according to analysis of variance (ANOVA). Mothers and caregivers largely approved all the trial porridges. The best blending and extrusion parameters, according to numerical optimization, were a BR of 28.2837%, FMC of 15.0007%, and BT of 120.001°C. The predicted responses for optimization were water solubility index (WSI) (32.4462 g/g), water absorption index (WAI) (3.69849%), viscosity (2016.47cP), protein (14.046%), and energy (348.034 kcal/100 g) with a desirability value of 0.856. This research leads us to believe that producing complementary meals with excellent nutritional value for developing nations may be achieved by evidence-based selection of locally accessible plant-based components.

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混合比例和挤压操作条件对以茶叶-布拉为基础的辅助食品的营养质量、功能和感官可接受性的影响：响应面方法学方法

本研究的目的是确定当地可能的谷物、块茎和豆类，用于挤压teff、bulla和haricot豆，以制备廉价的补充食品。本研究采用中央复合可旋转设计（CCRD）来评估特定加工参数对所生产的补充食品的近似成分、物理、功能和感官质量等响应变量的影响。加工参数包括胡豆混合比（BR）（10-30%）、饲料水分含量（FMC）（15-21%）和桶温（BT）（120-160°C）。配合饲料的近似成分为：水分含量 9.25% 至 12.36%、蛋白质 7.82% 至 14.04%、灰分 2.1% 至 3.28%、纤维 1.13% 至 3.93%、脂肪 1.17% 至 3.12%、碳水化合物 65.40% 至 78.25%、能量 338.42 千卡/100 克至 354.86 千卡/100 克。铁、钙、锌、植酸盐和单宁的主要矿物质和抗营养因子分别为 2.40 至 10.37 毫克/100 克、58.70 至 146.26 毫克/100 克、0.8 至 4.74 毫克/100 克、113.21 至 325.00 毫克/100 克和 16.54 至 44.62 毫克/100 克。根据方差分析（ANOVA），混合比例和挤压参数对物理和功能反应有显著的线性、二次和交互影响（p < 0.05）。母亲和看护人基本上认可所有的试验粥品。根据数值优化结果，最佳的混合和挤压参数为：BR 为 28.2837%，FMC 为 15.0007%，BT 为 120.001°C。预测的优化响应为水溶性指数（WSI）（32.4462 克/克）、吸水指数（WAI）（3.69849%）、粘度（2016.47cP）、蛋白质（14.046%）和能量（348.034 千卡/100 克），理想值为 0.856。这项研究使我们相信，通过循证选择当地可获得的植物性成分，可以为发展中国家生产出具有卓越营养价值的辅食。

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来源期刊

Journal of Food Quality 工程技术-食品科技

CiteScore

5.90

自引率

6.10%

发文量

285

审稿时长

>36 weeks

期刊介绍： Journal of Food Quality is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles related to all aspects of food quality characteristics acceptable to consumers. The journal aims to provide a valuable resource for food scientists, nutritionists, food producers, the public health sector, and governmental and non-governmental agencies with an interest in food quality.