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Canned fish is one of the most popular forms of fish consumption due to its high nutritional value, availability, and practicality. However, canning may induce lipid oxidation. Thus, this study provides in-depth information on the impact of high temperatures applied during canning on fish lipids. The thermo-oxidation is evidenced, for example, by the high levels of both primary and secondary oxidation products determined in fish after canning, as well as the presence of harmful compounds such as cholesterol oxides. Given the role of lipid oxidation in canned fish, this study also presents a comprehensive review on using natural antioxidants to control it. The antioxidant properties of common liquid mediums (vegetable oils and sauces) are highlighted. Moreover, adding algae extracts, spices, and condiments to the liquid medium to enhance its antioxidant potential has been considered, while the exploitation of by-products and wastes from the food industry also emerges as a suitable strategy. Besides the promising results, these practices may promote positive impacts on other quality parameters (e.g. water and oil holding capacities, texture, microbiological growth). However, further studies are needed, including research on aspects related to safety, effective concentrations and application methods, without ignoring consumers' sensory acceptance.

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The effect of adding pink pepper (Schinus terebinthifolius Raddi) fruits during sardines canning to minimize cholesterol oxidation were investigated. Canning resulted in an exchange of fatty acids, cholesterol and cholesterol oxides between fish muscle and liquid medium (soybean oil). It also induced lipid oxidation, which was demonstrated by the degradation of fatty acids and the formation of cholesterol oxides. Cholesterol oxides increased from 39.53 ± 2.14 µg/g (raw sardines) to 116.04 ± 0.78 µg/g (control sardines) after canning. However, lower levels were found in samples with pink pepper. Additionally, chromatographic analyses showed the migration of compounds (phenolic acids, flavonoids, tannins, terpenes) from pink pepper to sardines, indicating the constituents that could have contributed to its antioxidant properties. Thus, pink pepper may be highlighted as a suitable additive to reduce the intake of cholesterol oxides, minimizing the loss of nutritional quality in canned fish.

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Canned fish is submitted to processes that may degrade its lipids and form harmful compounds called cholesterol oxidation products (COPs). Samples of Brazilian commercial canned tuna were analyzed to evaluate the influence of different liquid mediums (oil and brine) on the fatty acid composition and formation of COPs. The exchange between fish lipids and the constituents of the covering liquid was highlighted by the high levels of linoleic acid found in tuna conserved in oil. High amounts of COPs were found. However, higher contents of COPs were found in tuna in brine (933.14 to 1914.23 µg/g) than in oil (698.24 to 1167.88 µg/g). This result was mainly promoted by the presence of pro-oxidant elements such as salt, as well as greater heat transfer in brine than in oil. This study showed that canned tuna is a potential source of exogenous COPs, indicating the role of liquid mediums in oxidative processes.

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This study determined the total phenolic content and antioxidant capacity of garlic (Allium sativum L.) and leek (Allium ampeloprasum L.), as well as evaluated their anticholesterol oxidation potential in fish burgers. The total phenolic contents were 1.1 ± 0.1 mg GAE/g FW to garlic and 1.3 ± 0.4 mg GAE/g FW for leek. Leek extract showed antioxidant activity index (1.3 ± 0.01) in DPPH and ß-carotene/linoleic acid assay (66.5 ± 1.6%); however, in ORAC assay, no statistic differences were observed (P > 0.05). Besides that, bioactive compounds of garlic and leek extracts were identified by ultra-high performance liquid chromatography-electrospray by ionization-mass spectrometry (UHPLC-ESI-MS). Fish burgers were prepared using different concentrations of leek and garlic and stored at -18 °C for 90 days. Thus, at days 0, 30, 60, and 90, the samples were grilled and analyzed as to their cholesterol and cholesterol oxidation products contents. Storage and grilling led to an increase in cholesterol oxidation products; however, addition of garlic and leek minimized cholesterol oxidation products formation. After 90 days, samples containing 3% leek + 0.5% garlic ware the most effective in inhibiting the cholesterol oxides formation during storage and showed the lowest increase in cholesterol oxidation products content (21.16%). Thus, the findings of this research indicate the potential application of garlic and leek as natural inhibitors of cholesterol oxidation in food. PRACTICAL APPLICATION: Garlic and leek have a set of bioactive compounds with a wide antioxidant capacity when used in meat foods such as fish burgers. Garlic and leek used as natural antioxidants perform well in the shelf life of fish burgers and can be substitutes for synthetic antioxidants in this type of product. The presence of both vegetables reduced the formation of prejudicial products to human health generated during the shelf life of the food.

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This study evaluated the protective effect of ground aroeira (Schinus terebinthifolius Raddi) fruit addition against fatty acids and cholesterol oxidation in model systems containing sardine oil (Sardinella brasiliensis) during heating (150 and 180 °C). High temperatures reduced the amount of essential polyunsaturated fatty acids and caused the formation of oxidized products. Total cholesterol oxides content increased from 58.9 ± 0.26 to 577.5 ± 2.14 µg/g oil, after heating at 180 °C. However, aroeira significantly protected lipids from oxidation. Although the synthetic antioxidant applied as standard (butylated hydroxytoluene) showed greater results, it was used in the maximum concentration permitted by Brazilian legislation (0.01%), suggesting that aroeira fruit could be used as a natural antioxidant for the food industry. The protective effect of aroeira may be correlated to its antioxidant capacity and the presence of bioactive compounds which were identified by UHPLC-ESI-MS in the aroeira extract.

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Synthetic antioxidants are widely used in the food industry. However, the potential toxicity, carcinogenic effects, and possible health damage caused by the ingestion of synthetic compounds, and also consumer concern about the safety of such additives has motivated the food industry to search for natural alternatives. Natural compounds with antioxidant properties are able to retard or prevent lipid oxidation in food. Animal sources like fish, eggs, meats, and dairy products are essential foods for human health due to their lipid fraction with high contents of unsaturated compounds, such as polyunsaturated fatty acids and cholesterol. However, these unsaturated lipids when exposed to favorable factors can become oxidized, which leads to sensory and nutritional losses as well as the formation of oxidized compounds known as cholesterol oxidation products or COPs. COPs are associated with deleterious health effects, such as inflammation, cytotoxicity, atherogenesis, carcinogenesis, and alterations in cell membrane properties, as well as the development of degenerative diseases such as Alzheimer's, Parkinson's, Huntington's, and other chronic diseases. Thus, the use of natural antioxidants can be an alternative to synthetics to prevent the formation of COPs and extend the shelf life of foods susceptible to oxidative deterioration. This review brings together information concerning the use of natural antioxidants as a strategy to control cholesterol oxidation.

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In this study, sacha inchi oil (SIO) was microencapsulated by emulsion-based systems using ovalbumin (Ova), pectin (Pec), and xanthan gum (XG), followed by freeze-drying. The microencapsulation was confirmed using Fourier transform infrared (FTIR) spectroscopy, X-ray diffraction (XRD), thermogravimetric analysis (TGA), and scanning electron microscopy (SEM). The stability of omega-3 in SIO alone as well as in microencapsulated SIO was assessed by nuclear magnetic resonance (1H NMR) spectroscopy after human gastric simulation (HGS). The SEM results revealed distinct structures for the two types of microcapsules. The thermograms showed that the thermal resistance was increased in the microencapsulated SIO, indicating that the emulsion-based system may be a way to protect the omega-3 in the SIO. In addition, the microencapsulation conferred an increased crystallinity degree, indicating a higher structural organization. Moreover, this method did not affect the stability of SIO, as confirmed by 1H NMR. The release of omega-3 acyl units from the SIO was correlated with the decrease of the methynic proton (sn, 2 position) of triacylglycerol (TAG). In contrast, the increase of 1,3-diglycerides was negatively correlated with the decrease of glyceryl groups (sn, 1,3 positions). The HGS conditions did not significantly alter the stability of the omega-3 of SIO over 180min. The SIO-Ova microcapsules had a similar behavior to the SIO, and the presence of Ova was not enough to prevent the decrease of omega-3 content over 180min. The SIO-Ova-Pec and SIO-Ova-XG microcapsules were shown to protect the omega-3 content effectively. In conclusion, the microcapsules developed in this study can be used to transport nutraceutical compounds because they are resistant to the human gastric conditions tested in vitro.

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