添加青海栎多酚类化合物提取物的酸奶化学成分、理化评价及感官分析

IF 1.3 Q4 FOOD SCIENCE & TECHNOLOGY
Eréndira Valencia-Avilés, M. García-Pérez, M. G. Garnica-Romo, J. D. Figueroa-Cárdenas, M. Paciulli, H. Martínez‐Flores
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引用次数: 4

摘要

引言:高热量和饱和脂肪的饮食与健康问题有关,这些问题在全球范围内不断增加。因此,需要增加能促进健康的配方食品的数量。酸奶是一种被所有人群广泛消费的食品,它可以被用作掺入生物活性化合物的载体。森林残留物中存在的酚类化合物,如橡树皮中的酚类物质,可以用于酸奶中,以增加其作为功能性食品的益处。目的:本研究的目的是开发一种多功能酸奶,该酸奶富含植物油(2.3%w/w)作为ω6和ω3的来源,并添加富含酚类化合物和高抗氧化能力的厚叶栎树皮提取物纳米胶囊(24.5%w/w)。方法:制备三种酸奶配方:F1:用脱脂乳制备酸奶,作为对照;F2:用脱脂奶制备酸奶并添加植物棕榈油;F3:用植物油和纳米胶囊化橡树皮酚提取物制备脱脂酸奶。对酸奶的化学成分、微生物分析和感官分析进行了表征。结果:多功能产品F3和F2的乳酸菌浓度分别为3.01X106和4.73x106,保留了益生菌食品的特性。产品F3的脱水率较低(7.34%),与对照酸奶(9.01%)有显著差异。由于纳米封装酚类物质增加了固体浓度,因此粘度从对照酸奶中的150 cP增加到F3中的341 cP。用于纳米封装的壁材料是酪蛋白酸钠和甘露聚糖。然而,这种粘度的增加并不影响产品的感官评价。对照酸奶与F2和F3产品之间没有显著差异。结论:制备了添加植物油和纳米橡皮酚提取物的酸奶。益生菌、生物活性化合物和必需脂肪酸的存在增强了它,然后由感官小组进行评估和接受。纳米胶囊是一种可行的替代品,可以掩盖酚类化合物特有的涩味,因为小组成员没有检测到它。关键词:废弃物回收;功能性乳制品;必需脂肪酸;益生菌;抗氧化剂;感觉的
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chemical composition, physicochemical evaluation and sensory analysis of yogurt added with extract of polyphenolic compounds from Quercus crassifolia oak bark
Introduction: A diet high in calories and saturated fats has been associated with health problems that have been increasing worldwide. Therefore, it is required to increase the number of formulated foods that generate well-being to health. Yogurt is a widely consumed food by all sectors of the population and it can be used as a vehicle to incorporate bioactive compounds. The phenolic compounds present in forest residues, such as those from oak bark, can be used and incorporated into yogurt, to increase its benefits as a functional food.Objective: The objective of this study was to develop a multifunctional yogurt enriched with vegetable oil (2.3% w/w) as a source of omega 6 and 3 and adding nanocapsules (24.5% w/w) of an extract of oak bark from Quercus crassifolia, rich in in phenolic compounds and high antioxidant capacity.Methods: Three yogurt formulations were prepared: F1: yogurt was made with non-fat milk, used as a control, F2: yogurt was prepared with non-fat milk and added with vegetable palm oil, and F3: non-fat yogurt was added with vegetable oil and nanoencapsulated oak bark phenolic extract. The yogurts were characterized in their chemical composition, microbiological analysis, and sensory analysis. Results: The multifunctional product F3 and product F2 presented lactic acid bacteria in concentration of 3.01X106 and 4.73x106, respectively, preserving characteristics of probiotic food. Product F3 presented low levels of syneresis (7.34%) and it was significantly different from the control yogurt (9.01%). The viscosity increased from 150 cP in the control yogurt to 341 cP in F3, due to the increase in the concentrations of solids by nanoencapsulating the phenolic. The wall material used for nanoencapsulation was sodium caseinate and mantodextrin. However, this increase in viscosity did not affect the sensory evaluation of the product. There were no significant differences between the control yogurt and the F2 and F3 products.Conclusion: A yogurt added with vegetable oil and nanoencapsulated oak bark phenolic extract was obtained. It was enhanced by the presence of probiotics, bioactive compounds, and essential fatty acids, and then evaluated and accepted by a sensory panel. Nanoencapsulation is a viable alternative to mask the characteristic astringent taste of phenolic compounds because it was not detected by the panelists. Keywords: waste recovery; functional dairy foods; essential fatty acids; probiotics; antioxidants; sensory.
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来源期刊
Functional Foods in Health and Disease
Functional Foods in Health and Disease FOOD SCIENCE & TECHNOLOGY-
CiteScore
2.20
自引率
20.00%
发文量
47
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