Impact of high-pressure processing on rheological, dispersive, and sensorial quality attributes of oat milk

Imran Ahmad, Julieta Melissa Lopez-Martinez, Muhammad Bilal Sadiq
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Abstract

Oat milk has attracted considerable consumer interest because of its high nutritional value, dietary fiber content, and phytochemical content. High-pressure processing (HPP) increases the shelf life of food while maintaining its nutritional value. However, HPP is known to induce rheological changes. Therefore, this study aimed to assess the rheological and microbiological characteristics of oat milk and the effect of HPP on various pressure levels. Oat milk was prepared and then treated with high-pressure processing (300–600 MPa) and heat. Subsequently, it was evaluated for its rheological properties, color, microbial content, and sensory attributes. Oat milk processed at 600 MPa was found to have improved viscosity (0.015–0.99, Pa.s), color, protein content, and homogenization compared to other treatments (p ≤ 0.05). The HPP inactivated mesophilic and psychotropic microorganisms, resulting in a 5-log drop in total microbial counts at 600 MPa. The panelists perceived that the sensory characteristics of the sample treated at 600 MPa were similar to those of samples that had been heat-treated (p < 0.05). High-pressure processing at 600 MPa effectively inhibited vegetative cells without negatively impacting the rheological properties of oat milk, in contrast to heat-treated milk.

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高压加工对燕麦奶流变性、分散性和感官质量属性的影响
燕麦奶因其较高的营养价值、膳食纤维含量和植物化学成分含量而备受消费者青睐。高压加工(HPP)可以延长食品的保质期,同时保持其营养价值。然而,众所周知,HPP 会引起流变学变化。因此,本研究旨在评估燕麦奶的流变学和微生物特性,以及不同压力水平下 HPP 的影响。先制备燕麦奶,然后用高压处理(300-600 兆帕)和加热处理。随后,对其流变特性、颜色、微生物含量和感官属性进行了评估。与其他处理方法相比,在 600 兆帕压力下加工的燕麦奶在粘度(0.015-0.99,Pa.s)、色泽、蛋白质含量和均质化方面均有改善(p ≤ 0.05)。HPP 灭活了嗜中性和嗜精神性微生物,使 600 兆帕时的微生物总数下降了 5 个菌落。专家小组成员认为,在 600 兆帕斯卡压力下处理的样品的感官特征与经过热处理的样品相似(p < 0.05)。与加热处理的牛奶相比,600 兆帕高压处理可有效抑制无性细胞,而不会对燕麦牛奶的流变特性产生负面影响。
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