Enriching the formulation of low-fat mozzarella cheese using micro-coated vitamin D3

Roza Rafiei, Leila Roozbeh Nasiraie, Zahra Emam Jumeh, Sara Jafarian
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Abstract

Purpose The use of polysaccharides increases solubility and consistency and causes functions such as viscosity? Moisture and food emulsifier stabilizer. This study aims to enrich the formulation of low-fat mozzarella cheese using microcoated vitamin D3 (VD3). Design/methodology/approach This study investigates the addition of hydrocolloids to low-fat mozzarella cheese to enhance its properties and nutritional value. Tests were conducted on cheese samples with 0.05% and 0.25% hydrocolloid concentrations at various stages: before production and at three and six months’ postproduction. The samples were evaluated for elasticity, pH and solubility to select the best one, which was then fortified with VD3. The vitamin was microencapsulated using alginate and whey protein to shield it from light and oxygen, optimizing the formula using the response surface method. The fortified cheese was tested for VD3 content over its shelf life. Findings Results indicated that all hydrocolloids tested improved moisture and meltability of the cheese while higher protein levels increased stretchability two to threefold. Rice starch hydrocolloid at 0.05% concentration was chosen due to superior sensory scores and minimal oil separation. This study concluded that VD3 levels remained stable during the cheese’s shelf life, suggesting that this approach could enhance the nutritional value of low-fat cheese without compromising its quality. Therefore, after examining the obtained results and comparing the regression models, the results indicated that the Quadratic model was chosen to investigate the effect of independent variables on the response rate, which had a statistically significant difference with other models (p = 0.0019). Also the results of the area under the curve and using the encapsulation efficiency equation, the percentage of microencapsulated vitamin was obtained, and according to the simulation results, the encapsulation efficiency was reported as 89.02%. Originality/value Developing innovative functional dairy products fortified with VD3 could improve the vitamin D status in deficient populations. Therefore, these designs can be applied at industrial scales for functional cheese production.
使用微包裹维生素 D3 丰富低脂马苏里拉奶酪的配方
用途使用多糖可增加溶解度和稠度,并具有粘度、水分和食品乳化剂稳定剂等功能。水分和食品乳化剂稳定剂。本研究旨在使用微涂层维生素 D3(VD3)丰富低脂马苏里拉奶酪的配方。设计/方法/途径本研究调查了在低脂马苏里拉奶酪中添加水胶体以提高其特性和营养价值的情况。在生产前、生产后三个月和六个月的不同阶段,对添加 0.05% 和 0.25% 水胶体的奶酪样品进行了测试。对样品的弹性、pH 值和溶解度进行了评估,以选出最佳样品,并在其中添加 VD3。使用海藻酸盐和乳清蛋白对维生素进行微胶囊化,使其免受光线和氧气的影响,并使用响应面法对配方进行优化。结果表明,所有测试过的水胶体都能改善奶酪的湿度和可熔性,而蛋白质水平越高,拉伸性就会增加两到三倍。之所以选择 0.05% 浓度的大米淀粉水胶体,是因为它的感官评分较高,而且油脂分离程度最小。这项研究得出的结论是,在奶酪的保质期内,VD3 的含量保持稳定,这表明这种方法可以提高低脂奶酪的营养价值,同时不影响其质量。因此,在对所获得的结果进行研究并对回归模型进行比较后,结果表明选择二次方程模型来研究自变量对响应率的影响,该模型与其他模型在统计学上有显著差异(p = 0.0019)。同时,根据曲线下面积的结果,并利用封装效率方程,得到了微胶囊维生素的百分比,根据模拟结果,封装效率为 89.02%。因此,这些设计可应用于工业规模的功能性奶酪生产。
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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