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Paradigm of deep pectoral myopathy in broiler chickens

Published online by Cambridge University Press:  27 February 2014

J. KIJOWSKI
Affiliation:
Department of Food Science and Nutrition, Div. Food Quality Management, Poultry Quality Lab., Poznan University of Life Sciences, 60-637, Poland
E. KUPIŃSKA*
Affiliation:
Department of Food Science and Nutrition, Div. Food Quality Management, Poultry Quality Lab., Poznan University of Life Sciences, 60-637, Poland
J. STANGIERSKI
Affiliation:
Department of Food Science and Nutrition, Div. Food Quality Management, Poultry Quality Lab., Poznan University of Life Sciences, 60-637, Poland
J. TOMASZEWSKA-GRAS
Affiliation:
Department of Food Science and Nutrition, Div. Food Quality Management, Poultry Quality Lab., Poznan University of Life Sciences, 60-637, Poland
T. SZABLEWSKI
Affiliation:
Department of Food Science and Nutrition, Div. Food Quality Management, Poultry Quality Lab., Poznan University of Life Sciences, 60-637, Poland
*
Corresponding author: [email protected]
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Abstract

Deep pectoral myopathy (DPM) of musculus pectoralis minor is an anomaly observed in gallinaceous poultry. To date its cases have been reported in adult pedigree turkeys and hens and in recent years also in broiler chickens. This degeneration is manifested in an abnormal appearance of breast muscles, with changes in colour from pink to green, as well as changes in the texture of the muscle tissue. The anomaly is found most frequently in genetic lines of chickens characterised by dynamic weight increment in the rearing period as well as a considerable increase in the proportion of pectoral muscles. The mechanism for the development of myopathy is already well known. It is related with ischemic necrosis initiated by rapid physical activity of birds, which mobilises pectoral muscles, normally relatively inactive in modern intensive animal management systems. Absence of symptoms manifested in vivo results in a situation when muscles affected by myopathy are identified only during carcass dissection. An increasing number of cases of this anomaly, as well as the fact that necrotic lesions affect valuable carcass elements make this problem one of great importance for chicken growers and abattoirs and poultry processing plants. In recent years DPM cases have been reported with increasing frequency in the USA, Italy, Greece and Bulgaria in commercial genetic lines. In Poland, a number of DPM cases have been recorded in large populations in flocks of five to seven week old chickens from 0.02% up to 1.9%. Risk factors for the occurrence of DPM on farms have been analysed, and are considered mainly due to intensive wing flapping. Identification of these factors may result in better farm management and constitute the basis for the DPM prevention system. A solution to this problem is not available currently.

Type
Review Article
Copyright
Copyright © World's Poultry Science Association 2014 

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References

BADGER, C. (2011) Green muscle disease. American Pastured Poultry Producers Association Newsletter 66 (11/12): 8-9, 21.Google Scholar
BIANCHI, M., PETRACCI, M., FRANCHINI, A. and CAVANI, C. (2006) The Occurrence of deep pectoral myopathy in roaster chickens. Poultry Science 85: 1843-1846.Google Scholar
BILGILI, S.F. and HESS, J.B. (2002) Green Muscle Disease in Broilers Increasing. World Poultry 18 (4): 42-43.Google Scholar
BILGILI, S.F. and HESS, J.B. (2008) Green Muscle Disease. Reducing the incidence in broiler flock. Aviagen Update 1-3.Google Scholar
CRESPO, R. and SHIVARPRASAD, H.L. (2003) Developmental, metabolic and other noninfectious disorders, in: SAIF, Y.M. (Ed.) Diseases of Poultry, 11th edition, pp. 1070-1071 (Blackwell Publishing Company, Iowa State University Press).Google Scholar
DICKINSON, E.M., STEVENS, J.O. and HELFER, D.H. (1968) A degenerative myopathy in turkeys. Proceedings of the 17th Western Poultry Disease Conference, University of California, Davis, pp. 6.Google Scholar
DINEV, I. and KANAKOV, D. (2011) Deep pectoral myopathy; prevalence in 7 weeks old broiler chickens in Bulgaria. Revue de Medecine Veterinaire 162 (6): 279-283.Google Scholar
D'SILVA, J. (2006) Adverse impact of industrial animal agriculture on the health and welfare of farmed animals. Integrative Zoology 1 (1): 53-58.CrossRefGoogle ScholarPubMed
GEORGOPOULOU, I., BOUGIOUKLIS, P., IORDANIDIS, P. and LEKKAS, S. (2005) Deep Pectoral Myopathy (DPM) in broiler chickens. Hellenic Veterinary Medical Society 56 (4): 295-300.CrossRefGoogle Scholar
GRABOWSKI, T. and KIJOWSKI, J. (2009) Surowiec rzeźny. Mięso i przetwory drobiowe: technologia, higiena, jakość. Warszawa WNT (in Polish).Google Scholar
GRUNDER, A.A. (1983) The green muscle disease in chickens and turkeys. Proceedings of 32th Annual Breeders’ Roundtable, St. Louis, Missouri, pp. 85-103.Google Scholar
GRUNDER, A.A., HOLLANDS, K.G. and GAVORA, J.S. (1979) Incidence of degenerative myopathy among turkeys fed corn or wheat based rations. Poultry Science 58: 1321-1324.Google Scholar
HAFEZ, H.M. and HAUCK, R. (2005) Genetic selection in turkeys and broilers and their impact on health conditions. World's Poultry Science Association, 4th European Poultry Genetics Symposium, Dubrovik, Croatia pp. 1-10.Google Scholar
HARPER, J.A., BERNIER, P.E. and THOMPSON-COWLEY, L.L. (1981) Incidence of deep pectoral myopathy in turkeys due to breeding and altered expression from forced exercise. Poultry Science 60: 1667.Google Scholar
HARPER, J.A., BERNIER, P.E. and THOMPSON-COWLEY, L.L. (1983) Early expression of hereditary deep pectoral myopathy in turkeys due to forced wing exercise. Poultry Science 62: 2303-2308.Google Scholar
HARPER, J.A. and HELFER, D.H. (1972) The effect of vitamin E, methionine and selenium on degenerative myopathy in turkeys. Poultry Science 51: 1757-1759.Google Scholar
HOLLANDS, K.G., GRUNDER, A.A., WILLIAMS, C.J. and GAVORA, J.S. (1980) Plasma creatine kinase as an indicator of degenerative myopathy in live turkeys. British Poultry Science 21: 161-169.CrossRefGoogle ScholarPubMed
HOLLANDS, K.G., GRUNDER, A.A., WILLIAMS, C.J., GAVORA, J.S. and CHAMBERS, J.R. (1981) Degenerative myopathy in meat type poultry: its effect on production traits in chicken and its identification in live turkeys. Proceedings of the 5th European Symposium, Apeldoorn, Beekbergen, pp. 337-344.Google Scholar
JONES, J.M. (1977) Quick detection now for ‘Oregon disease’. Poultry Industry, July, pp. 14-15.Google Scholar
KIJOWSKI, J. and KONSTAŃCZAK, M. (2009) Deep Pectoral Myopathy in broiler chickens. Bulletin Veterinary Institute Pulawy 53: 487-491.Google Scholar
KIJOWSKI, J., KUPIŃSKA, E., KACZMAREK, A., STANGIERSKI, J. and POPIÓŁ, A. (2009) Occurrence and characteristics of chicken breast muscles with DPM symptoms. Medycyna Weterynaryjna 65 (7): 466-471.Google Scholar
KIJOWSKI, J. and KUPIŃSKA, E. (2012) Induction of DPM changes in broiler chickens and characteristics of myopathy symptoms. Bulletin Veterinary Institute Pulawy 56: 217-223.CrossRefGoogle Scholar
KIJOWSKI, J. and KUPIŃSKA, E. (2013) The evaluation of selected quality parameters of broiler chicken muscles with Deep Pectoral Myopathy (DPM) symptoms. Archiv fur Geflügelkunde 77 (2): 102-108.Google Scholar
KRD-IG (Krajowa Rada Drobiarstwa-Izba Gospodarcza) (2012) Wyniki oceny wartości użytkowej drobiu. Warszawa, pp.17.Google Scholar
KUPIŃSKA, E. (2013) Incidence, characteristic, induction, prevention of deep pectoral myopathy in broiler chickens. Ph.D. Thesis, Poznan University of Life Sciences (in Polish).Google Scholar
LIEN, R.J., BILGILI, S.F. and HESS, J.B. (2008) Induced wing flapping to stimulate deep pectoral myopathy in broilers. Poultry Science Association 97th Annual Meeting, Niagara Falls, Canada, pp. 80.Google Scholar
LIEN, R.J., BILGILI, S.F., HESS, J.B. and JOINER, K.S. (2011) Finding answers to green muscle disease. Watt Poultry USA 5: 15-18.Google Scholar
LIEN, R.J., BILGILI, S.F., HESS, J.B. and JOINER, K.S. (2012) Induction of deep pectoral myopathy in broiler chickens via encouraged wing flapping. Journal Applied Poultry Research 21: 556-562.CrossRefGoogle Scholar
LIEN, R.J., BILGILI, S.F., JOINER, K.S. and HESS, J.B. (2010) A visual time course of deep pectoral myopathy lesion development in broilers. Poultry Science 89 (Suppl.1): 54-55.Google Scholar
LUBRITZ, D. (2007) Breeding for meat quality and high field products. Cobb Focus, March, pp.6-7.Google Scholar
MARTINDALE, L., SILLER, W.G. and WIGHT, P.A.L. (1979) Effects of subfascial pressure in experimental deep pectoral myopathy of the fowl: An angiographic study. Avian Pathology 8: 425-436.Google Scholar
ORR, J.P. and RIDDELL, C. (1977) Investigation of the vascular supply of the pectoral muscles of the domestic turkey and comparison of experimentally produced infarcts with naturally occurring deep pectoral myopathy. American Journal of Veterinary Research 38: 1237-1242.Google Scholar
PASTUSZCZAK, M. and URADZIŃSKI, J. (2002) The prevalence of green muscle disease in turkeys from the Warmia and Mazury Province of Poland. Polish Journal of Veterinary Science 5 (2): 57-61.Google Scholar
PASTUSZCZAK, M. and URADZIŃSKI, J. (2006) Green muscle disease. Magazyn weterynaryjny- Suplement Drób 5: pp.58 and 72 (in Polish).Google Scholar
PASTUSZCZAK-FRĄK, M. and URADZIŃSKI, J. (2009a) Hygienic and technological value of turkey raw meat originating from flocks with green muscle disease. Polish Journal of Veterinary Science 12 (2): 243-250.Google Scholar
PASTUSZCZAK-FRĄK, M. and URADZIŃSKI, J. (2009b) Influence of green muscle disease on quality of meat subjected to thermal treatment. Polish Journal of Veterinary Science 12 (4): 527-530.Google Scholar
PASTUSZCZAK, M., URADZIŃSKI, J. and ROTKIEWICZ, T. (2002) Histopathological changes in green muscle disease of turkeys. Polish Journal of Veterinary Science 5 (2): 63-70.Google ScholarPubMed
PETRACCI, M. and CAVANI, C. (2012) Muscle growth and poultry meat quality issues. Nutrients 4: 1-12.Google Scholar
PISULA, A. and POSPIECH, E. (2011) Mięso- podstawy nauki i technologii. Wydawnictwo SGGW, Warszawa. pp. 163 (in Polish).Google Scholar
POŁTOWICZ, K. (2012) Slowly raised chickens in poultry meat production. Part II. Polskie Drobiarstwo 19 (3): 2-6 (in Polish).Google Scholar
PROST, E. (1981) Miopatie obciążeniowe (stresowe) - schorzenia mięśni zwierząt rzeźnych- ich patogeneza oraz wpływ na wartość użytkową zwierząt. Medycyna Weterynaryjna 37 (4): 193-199.Google Scholar
RICHARDSON, J.A., BURTGENER, J., WINTERFIELD, R.W. and DHILLON, A.S. (1980) Deep pectoral myopathy in seven-week old broiler chickens. Avian Diseases 19: 814-821.Google Scholar
SAVORY, C.J. (2002) Effect of long-term selection for broiler traits. The 11th European Poultry Conference, Bremen, Abstract pp. 59.Google Scholar
SILLER, W.G. (1985) Deep Pectoral Myopathy: A penalty of successful selection for muscle growth. Poultry Science 64: 1591-1595.CrossRefGoogle ScholarPubMed
SILLER, W.G. and WIGHT, P.A.L. (1978) The pathology of deep pectoral myopathy of turkeys. Avian Pathology 8: 583-617.Google Scholar
SOBOCIŃSKI, M. (1987) Surowce zwierzęce. Elementy anatomii i fizjologii zwierząt użytkowych. Red. Kondek U., PWN Warszawa. pp. 87 (in Polish).Google Scholar
STOCKHAM, S.L. and SCOTT, M.A. (2002) Fundamentals of Veterinary Clinical Pathology. Blackwell Publishing, pp. 452.Google Scholar
WIGHT, P.A.L., SILLER, W.G. and MARTINDALE, L. (1981a) Animal model of human disease. March Gangrene: Deep Pectoral Myopathy, Oregon Disease, Green Muscle Disease. American Association of Pathologists, the Agricultural Research Council, Poultry Research Centers pp. 59-161.Google Scholar
WIGHT, P.A.L., SILLER, W.G. and MARTINDALE, L. (1981b) The sequence of pathological events in deep pectoral myopathy of broilers. Avian Pathology 10: 57-76.Google Scholar
WIGHT, P.A.L., SILLER, W.G., MARTINDALE, L. and FILSHIE, J.H. (1979) The induction by muscle stimulation of deep pectoral myopathy in the fowl. Avian Pathology 8: 115-121.Google Scholar