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Monitoring the formation of cholesterol oxidation products in model systems using response surface methodology

Cited 12 time in Web of Science Cited 15 time in Scopus
Authors

Min, Joong-Seok; Lee, Sang-Ok; Khan, Muhammad Issa; Yim, Dong Gyun; Seol, Kuk-Hwan; Lee, Mooha; Jo, Cheorun

Issue Date
2015-07
Publisher
BioMed Central
Citation
Lipids in Health and Disease, Vol.14 No.1, p. 77
Abstract
Background: Cholesterol oxidation products (COPs) are produced during thermal processing of animal origin foods and are considered to have negative health impacts. The model systems are helpful to understand the impact of various factors on oxidation changes in foods during cooking process. Methods: The study presented herein investigates the effects of pH, presence of unsaturated fatty acids, and heat on the formation of cholesterol oxidation products (COPs). Two model systems were designed to investigate the formation of cholesterol oxidation products in different lipid environments. The cholesterol oxides produced were quantified using gas chromatography. Results: The level of cholesterol oxidation products decreased significantly at higher pH (above 5.8) and shorter heating time (3 h). The presence of unsaturated fatty acids (linoleic and oleic acids) significantly increased the amount of COPs under low-temperature heating conditions (100 degrees C and 1 h) but did not affect the production of COPs at higher temperature (150 degrees C). Increasing the temperature to 200 degrees C significantly increased the amount of COPs during the first hour of heating and this amount decreased upon further heating. The most frequently observed COPs in samples were a-epoxide, 20a-hydroxycholesterol, and 25-hydroxycholesterol. Conclusions: In conclusion, pH below 5.8, presence of unsaturated fatty acid, and high cooking temperature (>150 degrees C) leads to increased production of cholesterol oxidation products.
ISSN
1476-511X
URI
https://hdl.handle.net/10371/207186
DOI
https://doi.org/10.1186/s12944-015-0074-6
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  • College of Agriculture and Life Sciences
  • Department of Agricultural Biotechnology
Research Area Analysis, evaluation, and development of quality and process of animal-origin foods, Development of non-thermal process for improvement of safety of animal-origin foods, Understanding of muscle biology and cultured muscle production

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