Oxylipins are pivotal in food science, impacting quality, safety, and health. Beyond their traditional association with lipid oxidation, they are now recognized for their dual roles, offering potential benefits in personalized nutrition and functional foods. In this review, a comprehensive discussion is provided on the biosynthesis and catabolic pathways of oxylipins. The sources and distribution of oxylipins in plant, algal, and animal-derived foods are investigated, and the detection techniques and analytical methods used for analyzing oxylipins in these complex food matrices are examined. The bioactivity and physiological functions of oxylipins are explored, including their antioxidant properties, roles in inflammation modulation and resolution, and regulation of immune functions. Additionally, the dynamic changes of oxylipins during food processing, fermentation and storage are examined, with an emphasis on their applications in monitoring food freshness and spoilage, verifying food authenticity, providing preservation and antimicrobial protection, and ensuring food safety. However, oxylipins research in food systems is facing multiple challenges in detection technology, stability regulation, functional analysis and industrial production. Future advances will rely on integrating AI analytics, synthetic and systems biology, and green manufacturing to balance functional food design with safety and quality in the industry.
Wang et al. (Fri,) studied this question.