DOI QR코드

DOI QR Code

Effect of Irradiation, Packaging Methods and Storage Periods on the Oxidation of Cholesterol in Beef Meat

전자선 조사, 포장방법 및 저장기간이 우육의 콜레스테롤 산화에 미치는 영향

  • Shin, T.S. (Department of Animal Science, Miryang National University) ;
  • Lee, J.I. (Institute for Development of Livestock Production, Gyeongsang National University)
  • Published : 2002.02.28

Abstract

Beef loins that retailed in market were used as experimental samples. Some beef samples in raw state were packaged with PVDC as aerobic and vacuum condition. The other beef samples were cooked until core temperature arrived at 70$^{\circ}C$ and then packaged immediately in the same way of raw samples. After these samples were irradiated by electron beam 6kGy, irradiated samples were stored in refrigerator(2~4$^{\circ}C$). Identify and quantity of cholesterol oxides were analysed stored at 0 and 7 days, respectively. During the early stage of storage, 7$\beta$-hydroxycholesterol and 7-ketocholesterol were respectively produced from the raw meat samples, and the production of these chemicals were significantly higher (P$<$0.05) from the meats with aerobic packaging than those with vacuum packaging. With the passage of storage time, 7$\alpha$-hydroxycholesterol, 20$\alpha$-hydroxycholesterol, $\beta$-epoxide, $\beta$-epoxide and some other chemicals, which were not produced during the early stage of storage, were produced, Also, the production of these chemicals were significantly increased (P$<$0.05) with the passage of storage time. Cooked meat after irradiation and irradiated meat after cooking produced cholesterol on the 7th day of storage, although this chemical was not produced during the early stage of storage. Production of cholesterol oxides was significantly increased (P$<$0.05) with the passage of storage time for all treatments, and showed significantly lower value (P$<$0.05) with the vacuum packaging than aerobic packaging. Summarizing the aforementioned results, it was found that the production of cholesterol oxides was more easily affected by packaging condition than irradiation.

우육 등심부위를 1 cm 두께로 절단한 후 생육 시료는 PVDC 필름으로 호기적 포장과 진공포장을 하여 6 kGy 선량으로 전자선 조사를 실시한 후 2-4$^{\circ}C$의 냉장실에서 보관하면서 저장기간 별(0, 7일) 실험에 사용하였다. 전자선 조사 후 가열시료와 가열 후 전자선 시료는 oven에서 육 내부 온도가 70$^{\circ}C$ 될 때까지 가열한 다음 함기 포장과 진공포장을 즉시 실시한 후 생육 시료와 같은 조건으로 냉장실에서 보관하면서 생육 시료와 같은 저장기간별 콜레스테롤 산화물의 발생 종류와 발생량을 조사한 결과는 다음과 같다. 생육 시료에서 저장초기에는 7$\beta$-hydroxycholesterol과 7-ketocholesterol이 검출되었으며, 처리구간에는 함기포장 처리구가 진공포장 처리구에 비하여 유의적으로(P$<$0.05) 많은 발생량을 보였다. 저장기간이 경과함에 따라 저장초기에는 발생되지 않았던 7$\alpha$-hydroxycholesterol, 20$\alpha$-hydroxycholesterol, $\beta$- epoxide 및 $\alpha$-epoxide 등이 검출되었으며, 발생량도 저장기간이 경과함에 따라 유의적으로(P$<$0.05) 증가하였다. 전자선 조사 후 가열 시료와 가열 후 전자선 조사 시료는 저장 초기에는 발생되지 않았던 cholestanetriol이 저장 7일에 검출되었으며, 전처리구가 저장기간이 경과함에 따라 콜레스테롤 산화물의 발생량이 유의적으로(P$<$0.05) 증가하였으며, 처리구간에는 진공포장한 처리구가 함기포장한 처리구에 비하여 유의적으로 (P$<$0.05) 낮은 발생량을 보였다. 이상의 결과를 종합하면 콜레스테롤 산화물질의 발생량은 조사로 인하여 발생되는 량보다는 저장시 포장조건이 더 많은 영향을 미치는 것으로 밝혀졌다.

Keywords

References

  1. Addis, P. B. 1990. Conory heart disease: an update with emphasis on dietary lipid oxidation products. Nutr. rev. 62:7.
  2. Addis, P. S. and Warner, G. J. 1991. The potential health aspects of lipid oxidation products in food. Ch. 5. In Free Rafical and Food Additives, 0.1. Aruoma and B. Halliwell (Ed.), p. 77-119. Taylor and Francis L.T.D. London, Great Britain .
  3. Ahn, D. U., Olson, D. G., Lee, J. I., Jo, c., Wu, C. and Chen, X. 1998. Packaging and irradiation effects on lipid oxidation and volatiles in pork patties. J. Food Sci. 63:15.
  4. Beuge, J. A. and Aust, S. D. 1078. Microsomal lipid peroxidation. Methods Enzymol. 52:302.
  5. Bosinger, S., Luf, W. and Brandl, L. 1993. Oxysterol: their occurrence and biological effects. Int. Dairy J. 3:1.
  6. Chan, S. H., Gray, J. I. and Gomaa, E. A. 1993. Cholesterol oxidation in whole powders as influenced by processing and packaging. Food Chern. 47:321.
  7. Folch, J., Lees, M. and Sloan-Stanley, G. H. 1957. A simple method for the isolation and purification of total lipids from animal tissues. J. Bio. Chern. 226:497.
  8. Grants, R 1996. Pathogen countdown. Meat Poult. Dec. p. SI9-45.
  9. Katusin-Razem, B., Mihajevic, K. W. and Razem, D. 1992. Time-dependent post irradiation oxidative chemical changes on dehyderated egg products. J. Agric. Food Chern. 40: 1948.
  10. Kesava Rao, Y., Kowale, B. N., Babu, N. P. and Bisht, G. S. 1996. Effect of cooking and storage on lipid oxidation and development of cholesterol oxidation products in water buffalo meat. Meat Sci. 43:179.
  11. Kowale, B. N., Kesava Reo, Y., Babu, N. P., Sharma, N. and Bisht, G. S. 1996. Lipid oxidation and cholesterol oxidation in mutton during cooking and storage. Meat Sci. 43:195. https://doi.org/10.1016/0309-1740(96)84591-8
  12. Lai, S. M., Gray, J. I. and Zabik, M. E. 1995. Evaluation of solid phase extraction and gas chromatography for determination of cholesterol oxidation products in spray-dried whole egg. J. Agric. Food Chern. 43: 1122.
  13. Lebovics, Y. K., Gaal, 0., Somogyi, L. and Farkas, J. 1992. Cholesterol oxides in r irradiated spray-dried egg power. J. Sci. Food Agric. 60: 251.
  14. u, S. x, Cherian, G. and Sim. J. S. 1996. Cholesterol oxidation in egg yolk powder during storage and heating as affected by dietary oils and tocopherol. J. Food Sci. 61:721.
  15. Monahan, F. J., Gray, J. I., Booren, A. M., Miller, E. R., buckley, D. J., Morrissey, P. A. and Gpmaa, E. A. 1992. Influence of dietary treatment on lipid and cholesterol oxidation in pork. J. Agric. Food Chern. 40:1310.
  16. Morin, R. J. and Peng, S. K. 1992. Cholesterol oxides in plasma and tissues. Ch. 5, in Biologica Effects of Cholesterol Oxides, S. K. Peng and R. J. Morin(Ed.). CRC Press, Ann Arbor, MI.
  17. Morin, R. J., Hu, B., Peng, S. K. and Sevanian, A. 1992. Cholesterol oxidation and cancer. Ch. 10, in Biological Effects of Cholesterol Oxides, S.K. Peng and R.I. Morin(Ed.). CRC Press, Ann Arbor, MI.
  18. Nam, K. c, Du, M., Jo, C. and Ahn, D. U. 2001. Cholesterol oxidation products in irradiated raw meat with different packaging and storage time. Meat Sci. 58:431.
  19. Nourooz-Zadeh, J. and Appelqvist, L. A. 1987. Cholesterol in Swedish food ingredients: fresh eggs and dehydrated egg products. J. Food Sci. 52:57.
  20. O'Connell, M. J. and Gamer, A. 1983. Radiation induced generation and the properties of lipid hydroxide in Iiposomes. Int. J. Radiat. BioI. 44: 615.
  21. Paniangvait, P., King, A. J., Jones, A. D. and German, B. G. 1995. Cholesterol oxides in foods of animal origin. J. Food Sci. 6O:1159.
  22. Park, S. W. and Addis, P. B. 1985. HPLC determination of C-7 oxidized cholesterol oxidation derivatives in foods. J. Food Sci. 50:1437.
  23. Peng, S. K., Hu, B. and Morin, R. J. 1992a. ffects of cholesterol oxides on atherogenesis. In: iological Effects of Cholesterol Oxides, ed Peng, . K. and Moarin, R. J. CRC Press, Boca Raton, L, USA. p.167.
  24. Peng, S. K.. Sevanian, A. and Morin, R. J. 1992b. Cytotoxity of cholesterol oxides. In: Biological Effects of Cholesterol Oxides, ed Peng, S. K. and Moarin, R. J. CRC Press, Boca Raton, FL, USA. p.147.
  25. Pie, J. E.. Spahis, K. and Seillan, C. 1991. Cholesterol oxidation in meat products during cooking and frozen storage. J. Agric. Food Chern. 39:250.
  26. SAS. 1995. SAS/SAIT Software for rc. Release 6.11, SAS Institute, Cray, NC, U.S.A.
  27. Smith, L. L. 1981. Cholesterol autoxidation. Plenum press. New York.
  28. Wang, F. S., Jiang, Y. N. and Lin, C. W. 1995. Lipid and cholesterol oxidation in cheese-style sausage using vacuum and modified atmosphere packaging. Meat Sci. 40:93.
  29. Zubillaga, M. P. and Marker, G. 1991. Quantification of three cholesterol oxidation products in raw meat and chicken. J. Food Sci. 56:1194
  30. Zunin, P., Evangelisti, F., Caboni, M. F., Penzazzi, G., Lercker, G. and Tiscomia, E. 1995 .Cholesterol oxidation in baked foods containing fresh and powdered eggs. J. Food Sci. 60:913.