Journal
COMPREHENSIVE REVIEWS IN FOOD SCIENCE AND FOOD SAFETY
Volume 22, Issue 4, Pages 2678-2705Publisher
WILEY
DOI: 10.1111/1541-4337.13158
Keywords
interface; lipid oxidation; oxidomics; W; O emulsion; water droplets
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Lipid oxidation is a significant concern in the processing and storage of water-in-oil (W/O) food emulsions, which contain high levels of lipids and are prone to oxidation. This review provides comprehensive insights into the key factors influencing lipid oxidation in W/O emulsions, proposing the use of oxidative lipidomics to identify novel markers that consider both chemical and supramolecular properties. The correlation of these markers with shelf life, sensory properties, and nutritional value can help develop targeted protective approaches for limiting lipid oxidation and improving oxidative stability.
Lipid oxidation is an inevitable event during the processing, storage, and even consumption of lipid-containing food, which may cause adverse effects on both food quality and human health. Water-in-oil (W/O) food emulsions contain a high content of lipids and small water droplets, which renders them vulnerable to lipid oxidation. The present review provides comprehensive insights into the lipid oxidation of W/O food emulsions. The key influential factors of lipid oxidation in W/O food emulsions are presented systematically. To better interpret the specific mechanisms of lipid oxidation in W/O food emulsions, a comprehensive detection method, oxidative lipidomics (oxidomics), is proposed to identify novel markers, which not only tracks the chemical molecules but also considers the changes in supramolecular properties, sensory properties, and nutritional value. The microstructure of emulsions, components from both phases, emulsifiers, pH, temperature, and light should be taken into account to identify specific oxidation markers. A correlation of these novel oxidation markers with the shelf life, the organoleptic properties, and the nutritional value of W/O food emulsions should be applied to develop targeted protective approaches for limiting lipid oxidation. Accordingly, the processing parameters, the application of antioxidants and emulsifiers, as well as packing and storage conditions can be optimized to develop W/O emulsions with improved oxidative stability. This review may help in emphasizing the future research priorities of investigating the mechanisms of lipid oxidation in W/O emulsion by oxidomics, leading to practical solutions for the food industry to prevent oxidative rancidity in W/O food emulsions.
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