Abstract
Oxidized lipids containing a wide variety of potentially toxic compounds can be ingested through diet. However, their transformations during digestion are little known, despite this knowledge being essential in understanding their impact on human health. Considering this, the in vitro digestion process of highly oxidized soybean oil, containing compounds bearing hydroperoxy, aldehyde, epoxy, keto and hydroxy groups, among others, is studied by 1H nuclear magnetic resonance. Lipolysis extent, oxidation occurrence and the fate of oxidation products both present in the undigested oil and formed during digestion are analyzed. Furthermore, the effect during digestion of two different ovalbumin proportions on all the aforementioned issues is also addressed. It is proved that polyunsaturated group bioaccessibility is affected by both a decrease in lipolysis and oxidation occurrence during digestion. While hydroperoxide level declines throughout this process, epoxy-compounds, keto-dienes, hydroxy-compounds, furan-derivatives and n-alkanals persist to a great extent or even increase. Conversely, α,β-unsaturated aldehydes, especially the very reactive and toxic oxygenated ones, diminish, although part of them remains in the digestates. While a low ovalbumin proportion hardly affects oil evolution during digestion, at a high level it diminishes oxidation and reduces the concentration of potentially bioaccessible toxic oxidation compounds.
Highlights
Food lipids can undergo oxidative reactions during their processing and storage, which adversely affect food quality and safety [1]
The results here presented address the study of: (i) the composition of the oil samples submitted to in vitro digestion; (ii) the lipolysis extent reached during digestion; (iii) the degradation level of oil acyl groups undergone during in vitro digestion; (iv) the fate of both the oxidation products present in the samples submitted to digestion and those generated during this process
Part of them stays in the digestates, so they could be absorbed and reach other targets. These results offer a new perspective both on the potential role of the various classes of oxidation products coming from dietary sources in biological damage, and on the assessment of the health risks derived from them
Summary
Food lipids can undergo oxidative reactions during their processing and storage, which adversely affect food quality and safety [1]. Several in vitro and in vivo studies have revealed that the thermoxidation of lipids and the presence in them of triglyceride dimers and polymers negatively affects lipid digestibility by reducing their lipolysis extent and/or absorption [5,6,7]. These works, which have provided very valuable knowledge about the digestibility of thermoxidized lipids, have been conducted using thermodegraded oils coming from processes at frying temperature. Previous studies by our research group, carried out with slightly oxidized polyunsaturated oils, containing basically hydroperoxides (primary oxidation products), have shown that the level of lipolysis reached after submission to in vitro gastrointestinal digestion is lower than that found when digesting these same unoxidized oils [8,9,10]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
