Powdered water kefir: Effect of spray drying and lyophilization on physical, physicochemical, and microbiological properties

Klinger Vinícius de Almeida , Vanessa Cortina Zanetti , Callebe Camelo-Silva , Luan Amaral Alexandre , Alice Cristina da Silva , Silvani Verruck , Luciano José Quintão Teixeira
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Abstract

This study addresses the challenge of optimizing powdered water kefir's fermentation and preservation processes to enhance its physical-chemical, microbiological, and technological characteristics. The main objective was to determine the best fermentation conditions and evaluate the efficacy of different drying methods. The optimal fermentation conditions were 5 % kefir grains, 10 % brown sugar, and an incubation temperature of 25 °C. Remarkably, the microbiological analysis revealed high abundances of Zymomonas mobilis (grains: 94.31 % and beverage: 91.68 %), Sporolactobacillus spathodeae (grains: 3.00 % and beverage: 5.42 %), and Liquorilactobacillus satsumensis (grains: 1.47 % and beverage: 0.62 %) among bacteria, and Lachancea fermentati (grains: 95.54 % and beverage: 67.53 %), Wickerhamomyces anomalus (grains: 3.00 % and beverage: 26.77 %) among fungi. The study innovatively demonstrates that lyophilization preserves the viability of these microorganisms, making it a promising method for producing stable, probiotic-rich powdered kefir. Although spray drying resulted in a logarithmic reduction of 3 logs CFU/g, it maintained sufficient microorganism counts, proving its viability as an alternative drying method. These methods retain the ideal physical-chemical properties and expand the accessibility and practical applications of water kefir. This research underscores the potential for powdered water kefir to deliver health benefits conveniently and versatilely, paving the way for broader industrial and academic applications.

Abstract Image

克菲尔水粉:喷雾干燥和冻干对物理、理化和微生物特性的影响
本研究旨在解决优化粉末状水酸乳的发酵和保存过程以提高其物理化学、微生物和技术特性的难题。主要目的是确定最佳发酵条件,并评估不同干燥方法的功效。最佳发酵条件是 5 % 的克菲尔谷物、10 % 的红糖和 25 °C 的培养温度。值得注意的是,微生物分析表明,乳酸菌(谷物:94.31 %,饮料:91.68 %)、孢子乳杆菌(谷物:3.00 %,饮料:5.在细菌中,有 Satsumensis 酒乳杆菌(谷物:1.47 %,饮料:0.62 %);在真菌中,有 Lachancea fermentati(谷物:95.54 %,饮料:67.53 %)、Wickerhamomyces anomalus(谷物:3.00 %,饮料:26.77 %)。这项研究创新性地证明,冻干法能保持这些微生物的活力,因此是生产稳定、富含益生菌的克菲尔粉末的一种有前途的方法。虽然喷雾干燥会导致 3 logs CFU/g 的对数减少,但仍能保持足够的微生物数量,证明了它作为替代干燥方法的可行性。这些方法保留了理想的物理化学特性,扩大了水酸乳的可及性和实际应用。这项研究强调了粉末状水酸乳方便、多用途地提供健康益处的潜力,为更广泛的工业和学术应用铺平了道路。
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来源期刊
Food chemistry advances
Food chemistry advances Analytical Chemistry, Organic Chemistry, Chemistry (General), Molecular Biology
CiteScore
1.90
自引率
0.00%
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0
审稿时长
99 days
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