Functional and physicochemical characterization of a novel pearl millet—Soy milk-based synbiotic beverage

Food Safety and Health Pub Date : 2024-10-15 DOI:10.1002/fsh3.12076

Urvashi Srivastava, Anchal Singh, Mazia Ahmed, Unaiza Iqbal, Pinki Saini

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Abstract

This study presents the physicochemical and functional characterization of a novel fermented pearl millet–soy milk-based synbiotic beverage. The synbiotic fermented pearl millet beverage was optimized at 40% pearl millet and 10.41% sugar, with hedonic score of more than eight for all the responses, through response surface methodology. The fermented synbiotic beverage, with Lactiplantibacillus plantarum strains exceeding 10⁸ colony-forming units/mL, exhibited superior nutritional and physicochemical qualities when compared with the unfermented counterpart. The viability percent of lactic acid bacteria in the developed beverage was found to be significantly high (87.83%). The survivability of probiotic culture was 76.71% in simulated gastric juice and 73.87% in simulated intestinal juice after sample storage for 25 days. The result showed that millets stand out as a promising raw material for developing fermented nondairy synbiotic beverages, particularly when combined with microbial strains such as L. plantarum.

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一种新型珍珠粟豆浆合成饮料的功能及理化特性研究

本文研究了一种新型发酵珍珠粟豆浆合成饮料的理化特性和功能特性。通过响应面法对合成发酵珍珠小米饮料进行优化，在40%珍珠小米和10.41%糖的条件下，所有响应的享乐得分都在8分以上。发酵后的植物乳杆菌菌落形成单位超过108个/mL，与未发酵的植物乳杆菌相比，具有优越的营养和理化品质。结果表明，该饮料中乳酸菌活力显著提高（87.83%）。样品保存25 d后，益生菌培养物在模拟胃液和模拟肠液中的存活率分别为76.71%和73.87%。结果表明，小米是一种很有前途的原料，用于开发发酵的非乳制品合成饮料，特别是当与植物乳杆菌等微生物菌株结合使用时。

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Food Safety and Health

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