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Effects of Carcass Processing Method and Curing Condition on Quality Characteristics of Ground Chicken Breasts
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 Title & Authors
Effects of Carcass Processing Method and Curing Condition on Quality Characteristics of Ground Chicken Breasts
Choi, Ji-Hun; Kim, Il; Jeong, Jong-Youn; Lee, Eui-Soo; Choi, Yun-Sang; Kim, Cheon-Jei;
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This study was carried out to investigate the effect of hot boning and curing condition on the quality characteristics of ground chicken breast. Treatments were cured by four conditions follows; control (general curing method), T1 (after hot-boning and then immediately cured), T2 (after hot-boning and immediately cured, then frozen), and T3 (after hot-boning, immediately frozen, refrigerated and then cured). The pH of chicken breast in the state of pre-rigor was 6.22. The pH of cold storage or freezing chicken breast meat respectively were 5.70 or 5.61. The pH of T1 and T2 treatments were significantly higher than those of control and T3 treatment (p<0.05). After stored for 1 wk, the pH value of T1 treatment had a higher value than those of other treatments. T1 treatment had the highest water holding capacity and the lowest cooking loss among all treatments, regardless of the cooking methods. The reduction in diameter for T1 and T2 treatments was lower than those of control and T3 treatment (p<0.05). T1 treatment had the lowest fat loss and moisture loss among all treatments, and the emulsifying capacity of T1 treatment was the highest. The protein solubility of T1 treatment was significantly lower than that of T3 treatment.
hot boning;curing condition;chicken breast;water holding capacity;
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Amato, P. M., Hamann, D. D., Ball, H. R. Jr., and Foegeding, E. A. (1989) Influence of poultry species, muscle groups, and NaCl level on strength, deformability, water retention in heat-set muscle gels. J. Food Sci. 54, 1136-1140, 1157 crossref(new window)

Bernthal, P. H., Booren, A. M., and Gray, J. I. (1989) Effect of sodium chloride concentration on pH, water-holding capacity and extractable protein of pre-rigor and postrigor ground beef. Meat Sci. 25, 143-154 crossref(new window)

Berry, B. W. and Leddy, K. F. (1984) Beef patty composition: Effects of fat content and cooking method. J. Am. Diet. Assoc. 84, 654-658

Boles, J. A. and Swan, J. E. (1996) Effect of post-slaughter processing and freezing on the functionality of hot-boned meat from young bull. Meat Sci. 44, 11-18 crossref(new window)

Coon, F. P., Calkins, C. R., and Mandigo, R. W. (1983) Preand post-rigor sectioned and formed beef steaks manufactured with different salt levels, mixing times and tempering times. J. Food Sci. 48, 1731-1734 crossref(new window)

Cunningham, F. E. and Froning, G. W. (1972) A review affecting emulsifying characteristics of poultry meat. Poult. Sci. 51, 1714-1720 crossref(new window)

Cuthbertson, A. (1980) Hot-processing of meat. In: Developments in meat science-1. Lawrie, R. A. (ed), Applied Science Publishers, London, pp. 61-82

Farouk, M. M. and Swan, J. E. (1997) Effect of pH at time of salting on the functional properties of pre-rigor beef. Meat Sci. 45, 463-472 crossref(new window)

Drerup, L. D., Judge, M. D., and Aberle, E. D. (1981) Sensory properties and lipid oxidation in prerigor processed fresh pork sausage. J. Food Sci. 46, 1659-1661 crossref(new window)

Fischer, C., Hamm, R., and Honikel, K. O. (1979) Changes in solubility and enzymatic activity of muscle glycogen phosphorylase in PSE muscles. Meat Sci. 3, 11-19 crossref(new window)

Froning, G. W. and Janky, D. M. (1971) Effect of pH and salt preblending on emulsifying characteristics of mechanically deboned turkey frame meat. Poult. Sci. 60, 1206-1209

Froning, G. W. and Neelakantan, S. (1970) Emulsifying characteristics of prerigor and postrigor poultry muscle. Emulsifying characteristics of pre-rigor and postrigor poultry muscle. Poult. Sci. 50, 839-845

Gornal, A. G., Bardawill, C. J., and David, M. M. (1949) Determination of serum proteins by means of the Biuret reaction. J. Biol. Chem. 177, 751-766

Grau, R. and Hamm, R. (1953) Eine einfache methode zur bestimmung der wasserbindung im muskel. Naturwissenschaften 40, 29-31 crossref(new window)

Guerrero, L. I., Usborne, W. R., and Ashton, G. C. (1987) Effect of hot-boned pork on the keeping quality of fresh pork sausage. Meat Sci. 21, 301-317 crossref(new window)

Hamm, R. (1961) Biochemistry of meat hydration. Adv. Food Res. 10, 355-463 crossref(new window)

Hamm, R. (1981) Post-mortem changes in muscle affecting the quality of comminuted meat products. In: Development in meat science-2. Lawrie, R. A. (ed), Applied Science Publishers, London, pp. 93-124

Hamm, R., Honikel, K. O., and Kim, C. J. (1984) Veranderung im schweine und rindmuskel nach dem schlachten. Fleischwirtschaft 64, 1387-1393

Honikel, K. O. and Hamm, R. (1978) Influence of cooling and freezing of miced pre-rigor muscle on the breakdown of ATP and glycogen. Meat Sci. 2, 181-188 crossref(new window)

Korea Chicken Council. (2009) Databases: Korea Chicken Consumption.

Lee, S. and Kim, B. C. (1991) Comparative studies on the sensory quality traits and the physico-chemical properties of beef muscles in the hot and the cold boning. Korean J. Anim. Sci. 33, 317-321

Puolanne, E. J. and Terrell, R. N. (1983) effect of salt levels in prerigor blends and cooked sausage on water binding, released fat and pH. J. Food Sci. 48, 1022-1024 crossref(new window)

Ray, F. E., Stiffler, D. M., and Berry, B. W. (1980) Effects of hot-boning and cooking method upon physical changes, cooking time and losses, and tenderness of beef roasts. J. Food Sci. 45, 769-772 crossref(new window)

Ryynanen, S., Risman, P. O., and Ohlsson, T. (2004) Hamburger composition and microwave heating uniformity. J. Food Sci. 69, M187-M196 crossref(new window)

Sadler, D. N. and Swan, J. E. (1991) Chilled storage life of hot-boned, pre-rigor, salted miced beef. Meat Sci. 45, 427-437 crossref(new window)

Sadler, D. N. and Swan, J. E. (1997) Effect of NaCl, polydextrose, and storage conditions on the functional character istics and microbial quality of pre- and post-rigor salted beef. Meat Sci. 46, 329-338 crossref(new window)

Saffle, R. L. and Galbreath, J. W. (1964) Quantitative determination of salt-soluble protein in various types of meat. Food Technol. 18, 1943-1944

SAS. (1999) SAS User’s Guide. Statistical Analysis Systems Institute, Cary, NC, USA.

Smulders, F. J. M., Marsh, B. B., Swarz, D. R., Russell, R. L., and Hoenecke, M. E. (1990) Beef tenderness and sarcomere length. Meat Sci. 28, 349-363 crossref(new window)

Stewart, M. K., Fletcher, D. L., Hamm, D., and Thomson, J. E. (1984) The influence of hot-boning broiler breast muscle on pH decline and toughening. Poult. Sci. 63, 1935-1939 crossref(new window)

Van Laack, R. L. J. M., and Smulders, F. J. M. (1992) On the assessment of water-holding capacity of hot- vs cold-boned pork. Meat Sci. 28, 349-363 crossref(new window)

이성기 (1999) 계란과 닭고기의 과학. 유한문화사, 서울, pp. 162-215