Changes in Quality of Pork Patty Containing Red Wine During Cold Storage

Red wine을 첨가한 돈육 patty의 냉장 중 품질변화

  • Youn, Dong-Hwa (Dept. of Skin Care, Daegu Technical College) ;
  • Moon, Yoon-Hee (Dept. of Food Science and Technology, Kyungsung University) ;
  • Jung, In-Chul (Division of Food Beverage and Culinary Arts, Daegu Technical College)
  • 윤동화 (대구공업대학 피부미용과) ;
  • 문윤희 (경성대학교 식품공학과) ;
  • 정인철 (대구공업대학 식음료조리계열)
  • Published : 2007.01.29


This study was carried out to investigate the effect of addition of red wine on the water holding capacity, surface color, pH, TBARS value, VBN content and total bacterial counts of pork patties during cold storage. Pork patties were prepared by four type such as pork patty without red wine (control), pork paoy containing red wine 1% (RW-1), pork patty containing red wine 3% (RW-3) and pork patty containing red wine 5% (RW-5). The water holding capacity was increased significantly during cold storage, but was not influenced by addition of red wine (p<0.05). The $L^*$ (lightness), $a^*$ (redness) and $b^*$ (yellowness) value was low by addition of red wine, was decreased during cold storage (p<0.05). The pH of pork patties were tend to increased with increase in cold storage period, the pH of RW-3 and RW-5 were significantly lower compared to control and RW-1 (p<0.05). The TBARS value of pork patties were tend to increased with increase in cold storage period, by increasing the amount of addition of red wine, the TBARS value were tend to decreased (p<0.05). The VBN content and total bacterial counts of pork patties were tend to increased with increase in cold storage period, and by increasing the amount of addition of red wine, the VBN content and total bacterial counts were tend to decreased during cold storage.


  1. Addis, P. B. and S. W. Park. 1989. Role of lipid oxidation products in artherosclerosis, In: Taylor and R.A. Scanlan, Editors, Food toxicology. A perspective on the relative risks, Marcel Dekker, New York, pp. 297-330
  2. Aruoma, O. 1996. I eat, drink and be healthy. Chemistry in Britain 32, 29-31
  3. Bekhit, A. E. D., G. H. Geesink, M. A. Ilian, J. D. Morton and R. Bickerstaffe, 2003. The effects of natural antioxidants on oxidative processes and metrnyoglobin reducing activity in beef patties. Food Chem. 81, 175-187
  4. Buchanan, R. L., M. H. Golden and R. C. Whiting. 1993. Differentiation of the effects of pH and lactic or acetic acid concentration on the kinetics of Listeria monocytogenes inactivation. J. Food Prot. 56, 474-478
  5. Buege, A. J. and S. D. Aust. 1978. Microsomal Lipid Peroxidation, In Methods in Enzymology, Gleischer, S. and Parker, L. (ed.), pp 302-310, Academic Press Inc., New York, Vol. 52
  6. Cassens R, G. 1985. Use of sodium nitrite in cured meats today. Food Technol. 49, 72-80
  7. Chen, Y. T., R. L. Zheng, Z. L. Zia and Y. Ju. 1990. Flavonoids as superoxide scavengers and antioxidants. Free Radical Biol. Med. 9, 19-21
  8. Clark, A. M., F. S. El-Feraly and W. S. Li. 1981. Antimicrobial activity of phenolic constituents of Magnolia grandiflora L. J. Phar. Sci. 70, 951-952
  9. Coresopo, F. L., R. Millan and A. S. Moreno. 1978. Chemical changes during ripening of spanish dry. III. Changes in water soluble N-compounds. A Archivos de Zootechia 27, 105-108
  10. Hamm, R. 1982. Postmortem changes in muscle with regard to processing of hot-boned beef. Food Technol. 37, 105-115
  11. Hansley, J. L. and L. W. Hand. 1995. Fomulation and chopping temperature effects on beef frankfurters. J. Food Sci. 60, 55-57
  12. Helser, M. A. and J. H. Hotchkiss. 1984. Comparison of tomato phenolic acid and ascorbic acid fractions on the inhibition of N-nitroso compound formation. J. Agric. Food Chem. 42, 129-132
  13. Ho, C. P., K. W. McMillin and N. Y. Huang. 1996. Ground beef lipid, color and microsomal stability in gas exchange modified atmosphere packaging. In 1996 IFT annual meeting proceeding 22-26 July(pp. 162), New Orleans, LA, USA
  14. Hofmann, K., R. Hamm and E. Bluchel. 1982. Neues uber die Bestimmung der Wasserbindung des Fleisches mit Hilfe der Filterpapierpress methode. Fleischwirtschaft 62, 87-93
  15. Hyon, J. S., Y. H. Moon, S. J. Kang, J. K. Kim and I. C. Jung. 2003. Quality characteristics of sausage prepared with mugwort powder and different carcass grade. Korean J. Food Sci. Ani. Resour. 23, 292-298
  16. Jayaprakasha, G. K., T. Selvi and K. K. Sakariah. 2003. Antibacterial and antioxidant activities of grape(Vitis vinifera) seed extracts. Food Res. Int. 36, 117-122
  17. Jung, I. C., D. W. Kim, G. I. Moon, S. J. Kang, K. Y. Kim and Y. H. Moon. 1998. Effects of freezing temperature on quality of vacuum packaging freezed beef. Korean J. Food Nutr. 11, 409-415
  18. Jung, I. C., Y. K. Kim and Y. H. Moon. 2002. Effects of addition perilla leaf powder on the surface color, residual nitrite and shelf life of pork sausage. Korean J. Life Sci. 12, 654-661
  19. Juntachote, T., E. Berghofer, S. Siebenhandl and F. Bauer. 2006. The antioxidative properties of Holy basil and Galangal in cooked ground pork. Meat Sci. 72, 446-456
  20. King, N. L. and J. J. Macfarlane. 1987. Muscle proteins. In advances in meat research, Pearson, A. M. and T. R. Dutson,(eds.), Van Nostrand Reinhold, N.Y. Vol. 3, pp. 21-72
  21. Korean Food & Drug Administration. Food Code, 2002. Moonyoungsa, Seoul, p. 220
  22. Livinston, D. J. and W. D. Brown. 1982. The chemistry of myoglobin and its reactions. Food Technol. 35, 244-252
  23. Macarthy, T. L., J. P. Kerry, J. F. Kerry, P. B. Lynch and D. J. Buckley. 2001. Assessment of the antioxidant potential of natural food and plant extracts in fresh and previously frozen pork patties. Meat Sci. 57, 177-184
  24. Mato, I., S. Suarez-Luque and J. F. Huidobro. 2005. A review of the analytical methods to determine organic acids in grape juices and wine. Food Res. Int. 38, 1175-1188
  25. Mayer, A. S., O. S. Yi, D. A. Person, A. L. Waterhouse and E. N. Frankel. 1997. Inhibition of human low-density lipoprotein oxidation in relation to composition of phenolic antioxidants in grapes(Vitis vinifera). J. Agric. Food Chem. 45, 1638-1643
  26. Minussi, R. C., M. Rossi, L. Bologna, L. Cordi, D. Rptilio, G. M. Pastore and N. Duran. 2003. Phenolic compounds and total antioxidant potential of commercial wines. Food Chem. 82, 409-416
  27. Moon, Y. H., S, J. Kang, Y. K. Kim, J. B. Yang, I. C. Jung and J. S. Hyon. 2003. Effects of addition of mugwort powder and carcass grade on the quality characteristics of pork patty. Korean J. Food Sci. Ani. Resour. 23, 97-102
  28. Park, C. K., H. I. Song, J. H Nam, Y. H. Moon and I. C. Jung. 2000. Effect of hydrocolloids on physicochemical, textural and sensory properties of pork patties. J. Korean Soc. Food Sci. Nutr. 29, 586-591
  29. Passamonti, S., A. Vanzo, U. Vrhovsek, M. Terdoslavich, A. Cocola, G. Decorti and F. Mattivi. 2005. Hepatic uptake of grape anthocyanins and the role of bilitranslocase. Food Res. Int. 38, 953-960
  30. Penny, I. F. 1974. The effect of freezing on the amount of drip from meat. In 'Meat freezing why and how' Meat Research, Langford, Bristol, p. 8
  31. Ricardo da Silva, J. M., J. P. Rosec, M. Bourzeix and N. Heredia. 1990. Separation and quantitative determination of grape and wine procyanidins by HPLC. J. Sci. Food Agric. 53, 85-92
  32. Saito, M., H. Hosoyama, T. Ariga, S. Kataoka and N. Yamaji. 1998. Antiulcer activity of grape seed extracts and procyanidins. J. Agric. Food Chem. 46, 1460-1464
  33. Savage, A. W. J., P. D. Warriss and P. D. Jolly. 1990. The amount and composition of the proteins in drip from stored pig meat. Meat Sci. 27, 289-303
  34. Soleas, G. J. and D. M. Goldberg. 1999. Analysis of antioxidant wine polyphenols by gas chromatography-mass spectrometry. Methods in Enzymology 299, 137-151
  35. SPSS. 1999. SPSS for windows Rel. 10.05. SPSS Inc., Chicago, USA
  36. St. Angelo, A. J., R. J. Vercellotti, M. G. Legendre, C. H. Vinnett, J. W. Kuan and C. James Jr. 1996. Chemical and instrumental analyses of warmed-over flavor in beef. J. Food Sci. 52, 1163-1168
  37. Turner, E. W., W. D. Paynter, E. J. Montie, M. W. Basserkt, G. M. Struck and F. C. Olson. 1954. Use of 2-thiobarbituric acid reagent to measure rancidity of frozen pork. Food Technol. 8, 326-330
  38. Waterhouse, A. L. 1994. Wine antioxidants may reduce heart disease and cancer. Presentation of American Chemical Society. Washington DC, August
  39. Zhou, Y. C. and R. L. Zheng. 1991. Phenolic compounds and analog as superoxide anion scavengers and antioxidants. Biochem. Pharmacol. 42, 1177-1179

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