A simple, fast, and sensitive method for the extraction through direct saponification, separation, quantification, and identification of 12 cholesterol oxidation products (COPs) and cholesterol in a single isocratic, normal-phase, high-performance liquid chromatography (HPLC) was developed. Three detectors were compared for determination of COPs and cholesterol in fish samples: refractive index (RI), ultraviolet (UV), and atmospheric pressure chemical ionization mass spectrometry (APCI-MS). The results did not show significant differences (p > 0.05) between the concentration of the cholesterol oxides and cholesterol obtained with these detectors. The present study demonstrated the presence of 19-hydroxycholesterol, 22"R"-hydroxycholesterol, 22"S"-hydroxycholesterol, 24"S"-hydroxycholesterol, and 25"R"-hydroxycholesterol for the first time in fish samples.
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.
The effects of O 3 concentration, exposure time and grain mass were evaluated on the levels of deoxynivalenol, aflatoxins and total fungal count (TFC) in wheat grains, using a full 2 3 factorial design. Grain samples were contaminated with fungal conidia and spiked with mycotoxins standards and then submitted to ozonation treatments. The most significant reductions obtained for deoxynivalenol and total aflatoxins corresponded to 64.3 and 48.0%, respectively. TFC reduced approximately 3.0 cycles log cfu/g of wheat grain. O 3 concentration and exposure time influenced (P < 0.05) positively the reductions of both mycotoxins and TFC, while the grain mass had a negative effect on both responses. The most significant reduction in TFC and mycotoxin levels was achieved by using 60 mg/L of O 3 for 300 min, with 2 kg samples. Gaseous O 3 can be considered an excellent method for remediation of these contaminants.
PRACTICAL APPLICATIONSGaseous ozonation is an interesting nonthermal technology that can be applied to reduce fungal and mycotoxin contamination in wheat grains (Triticum aestivum L.). The O 3 concentration and exposure time positively influence reductions in mycotoxins and fungi count, while grain mass has a negative effect on both variables. Using 60 mg/L of O 3 at 300 min of exposure and 2 kg grain samples (11.3% moisture content) is possible to obtain reductions of 3.0 cycles log cfu/g in total fungal count, 64.3% in DON levels and 48.0% in total aflatoxin levels. Data found in this research should contribute in greater interest of ozonation by the food industry and consequently a wider popularization of ozonized products by consumers.
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