Oleofoams: The impact of formulating air-in-oil systems from a lipid oxidation perspective

IF 6.2 2区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY Current Research in Food Science Pub Date : 2024-01-01 DOI:10.1016/j.crfs.2024.100690
Lucie Ribourg-Birault , Anne Meynier , Simon Vergé , Emeline Sallan , Alice Kermarrec , Xavier Falourd , Claire Berton-Carabin , Anne-Laure Fameau
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Abstract

Air-in-oil foams, or oleofoams, have a great potential for food applications as they can at least partially replace animal or hydrogenated fats, without compromising on textural properties. Yet, there are some challenges to tackle before they can largely be implemented for real-life applications. One of those is the lack of data regarding their oxidative stability. This is an important point to consider, as although using oils rich in polyunsaturated fatty acids (PUFAs) is highly desirable from a nutritional perspective, these fatty acids are particularly prone to oxidation, which leads to major degradations of food quality. This work thus aimed to investigate the oxidative stability of oleofoams prepared with omega-3 PUFA-rich vegetable oils (rapeseed or flaxseed oil) and various types of high melting point lipid-based oleogelators (stearic acid, glyceryl monostearate and stearyl alcohol) when incubated at room temperature. The physical structure and stability of the oleofoams was monitored by various techniques (visual observations, microscopy, DSC, NMR, SAXS and WAXS). Lipid oxidation was assessed by combined measurements of primary (conjugated diene hydroperoxides) and secondary (thiobarbituric acid reactive substances – TBARS) products. We found that the oxidative stability of oleofoams was higher compared to that of the corresponding bulk oil. This protective effect was also found when the oil was simply mixed with the oleogelator without incorporation of air bubbles (i.e., forming an oleogel), and was somewhat modulated depending on the type of oleogelator. These results suggest that oleogelators and the structural changes that they induce limit the cascaded propagation of lipid oxidation in oil-continuous matrices, which is promising in the perspective of future applications.

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油脂泡沫:从脂质氧化角度看油包空气系统配方的影响
油包气泡沫或油脂泡沫在食品应用方面具有巨大的潜力,因为它们至少可以部分替代动物脂肪或氢化脂肪,而不会影响质地特性。然而,在将它们广泛应用于实际生活之前,还有一些挑战需要解决。其中之一就是缺乏有关其氧化稳定性的数据。这是一个需要考虑的重要问题,因为尽管从营养角度来看,使用富含多不饱和脂肪酸(PUFA)的油是非常可取的,但这些脂肪酸特别容易氧化,从而导致食品质量严重下降。因此,这项工作旨在研究用富含欧米伽-3 PUFA 的植物油(菜籽油或亚麻籽油)和各种类型的高熔点脂基油凝胶剂(硬脂酸、单硬脂酸甘油酯和硬脂醇)制备的油脂泡沫在室温下培养时的氧化稳定性。油脂泡沫的物理结构和稳定性通过各种技术(肉眼观察、显微镜、DSC、NMR、SAXS 和 WAXS)进行监测。通过对初级产物(共轭二烯氢过氧化物)和次级产物(硫代巴比妥酸活性物质 - TBARS)的综合测量,对脂质氧化进行了评估。我们发现,与相应的散装油相比,油脂泡沫的氧化稳定性更高。当油与油凝胶剂简单混合而不加入气泡(即形成油凝胶)时,也能发现这种保护效果,而且这种效果会根据油凝胶剂的类型而有所改变。这些结果表明,油凝胶剂及其诱导的结构变化限制了油连续基质中脂质氧化的级联传播,这在未来的应用中大有可为。
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来源期刊
Current Research in Food Science
Current Research in Food Science Agricultural and Biological Sciences-Food Science
CiteScore
7.40
自引率
3.20%
发文量
232
审稿时长
84 days
期刊介绍: Current Research in Food Science is an international peer-reviewed journal dedicated to advancing the breadth of knowledge in the field of food science. It serves as a platform for publishing original research articles and short communications that encompass a wide array of topics, including food chemistry, physics, microbiology, nutrition, nutraceuticals, process and package engineering, materials science, food sustainability, and food security. By covering these diverse areas, the journal aims to provide a comprehensive source of the latest scientific findings and technological advancements that are shaping the future of the food industry. The journal's scope is designed to address the multidisciplinary nature of food science, reflecting its commitment to promoting innovation and ensuring the safety and quality of the food supply.
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