Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-24T01:44:14.251Z Has data issue: false hasContentIssue false

Broiler ascites: a review of the ascites work done at the poultry section of the Onderstepoort Veterinary Institute 1981-1990

Published online by Cambridge University Press:  21 February 2012

F.W. HUCHZERMEYER*
Affiliation:
Department of Paraclinical Sciences, Faculty of Veterinary Science, University of Pretoria, Onderstepoort, 0110 South Africa
*
Corresponding author: [email protected]
Get access

Abstract

Broiler ascites, first seen in the form of a high altitude disease, has increased in importance world-wide in direct proportion to the improvement in growth performance of modern broilers. At the same time, the incidence has spread gradually from high altitude (above 2000 m) down to sea level, which gave rise to proposals of alternative causes including infections, toxins and metabolic disorders. Our work centred on anatomical and physiological aspects and included hypoxia models, chemotherapy and selection for genetic resistance. The latter led to the development of ascites-resistant lines, which allowed resistant stock to become commercially available in South Africa.

The closure of the Poultry Section of the Onderstepoort Veterinary Institute brought ongoing ascites research to an abrupt end and some of the completed work was never published. This review of completed, ongoing and planned ascites work was at the time compiled as final report to the Director of the Institute in 1990. It came to light again recently and has been edited for publication. It also includes a new hypothesis on the reasons for the susceptibility of the domestic fowl and particularly broilers to hypoxic ascites.

Type
Review Article
Copyright
Copyright © World's Poultry Science Association 2012

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

ALBERS, G. and FRANKENHUIS, M. (1990) Ascites, a high altitude disease in the lowlands. Poultry-Misset 1990: 24-25.Google Scholar
AMIN, T.M., ALLEN, B.V. and COLLES, C.M. (1984) Effects of warfarin on blood rheology in navicular diseases. Research in Veterinary Science 40: 308-313.CrossRefGoogle Scholar
ARCHER, B.L., EATON, J.N., CHESLER, E. and WEIR, E.K. (1985) Nitrofurantoin reduces chronic hypoxic pulmonary hypertension in rats. Federation Proceedings 44: 1755.Google Scholar
BERGMANN, V., MÜLLER-MOLENAR, K. and BIRNBAUM, H. (1979) Zum Auftreten eines Hydropericard-Ascites-Syndroms („ Oedemkrankheit“) in Broilerbeständem. Monatshefte für Veterinärmedizin 34: 626-628.Google Scholar
BESCH, E.L. and KADONO, H. (1978) Cardio-pulmonary responses to acute hypoxia, in: PIJPER, J. (Ed.) Respiratory function in birds, adult and embryonic, pp. 71-78 (Berlin, Springer).Google Scholar
BEZUIDENHOUT, A.J. (1988) Ascites and the anatomy of the peritoneal sacs of broilers. Onderstepoort Journal of Veterinary Research 55: 23-25.Google ScholarPubMed
BRACKENBURY, J.H., GLEESON, M. and AVERY, P. (1982a) Control of ventilation in running birds: Effects of hypoxia, hyperoxia and CO2. Journal of Applied Physiology 53: 1397-1404.CrossRefGoogle ScholarPubMed
BRACKENBURY, J.H., GLEESON, M. and AVERY, P. (1982b) Respiration in exercising fowl. III. Ventilation. Journal of Experimental Biology 96: 315-324.CrossRefGoogle Scholar
BRACKENBURY, J.H., GLEESON, M. and AVERY, P. (1983) Effects of pCO2 on respiratory pattern during thermal and exercise hyperventilation in domestic fowl. Respiration Physiology 54: 109-119.Google Scholar
BRACKENBURY, J.H., GLEESON, M. and AVERY, P. (1985) Separate and combined effects of temperature and hypoxia on breathing pattern in the domestic fowl. Journal of Comparative Physiology B 156: 109-133.Google Scholar
BURTON, R.R., SMITH, A.H., CARLISLE, J.C. and SLUKA, S.J. (1969) Role of haematocrit, heart mass, and high altitude exposure in acute hypoxia tolerance. Journal of Applied Physiology 27: 49-52.CrossRefGoogle ScholarPubMed
CANTIN, M. and GENEST, J. (1986) The heart as an endocrine gland. Scientific American 254(2): 62-67.Google Scholar
CUEVA, S., SILLAU, H., VALENZUELA, A. and PLOOG, H. (1974) High altitude induced pulmonary hypertension and right heart failure in broiler chickens. Research in Veterinary Science 16: 370-374.CrossRefGoogle ScholarPubMed
DA SILVA, J.M.L. (1985) South America. Lack of diagnostic laboratories. Poultry International August 1985: 14-18.Google Scholar
DLOUHA, H. and MCBROOM, M.J. (1986) Atrial natriuretic factor in taurine-treated normal and cardiomyopathic hamsters. Proceedings of the Society for Experimental Biology and Medicine 181: 411-415.Google Scholar
DORNFEST, B.S., NAUGHTON, B.A., JOHNSON, R. and GORDON, A.S. (1983) Hepatic production of erythropoietin in a phenylhydrazine-induced hemolytic state in the rat. Journal of Laboratory and Clinical Medicine 102: 274-285.Google Scholar
DUFF, J.P., VELA, M.W. and PAREDES, D. (1995) Ascites syndrome in a turkey reared above 2000 metres. Veterinary Record 137: 300.CrossRefGoogle Scholar
DUNCKER, H.-R. (1972) Structure of the avian lung. Respiration Physiology 14:44-63.Google Scholar
DUNCKER, H.-R. and KRIETE, A. (1987) Morphometrie mit Hilfe der Bildanalyse. Spiegel der Forschung 4(4): 5-9.Google Scholar
DUNCKER, H.-R. and GÜNTERT, M. (1989) The quantitative design of the avian respiratory system from hummingbird to mute swan. Biona Report 3: 361-378.Google Scholar
ESTAVILLO, J.A. (1988) Changes in ventilation by increased venous CO2 with constant arterial blood gases in the domestic fowl. Journal of Physiology 396: 97p.Google Scholar
GUTHRIE, A.J., CILLIERS, J.A., HUCHZERMEYER, F.W. and KILLEEN, V.M. (1987) Broiler pulmonary hypertension syndrome. II. The direct measurement of right ventricular and pulmonary artery pressures in the closed chest domestic fowl. Onderstepoort Journal of Veterinary Research 54: 599-602.Google Scholar
HASSANZADEH LADMAKI, M., BUYS, N., DEWIL, E., RAHIMI, G. and DECUYPERE, E. (1997) The prophylactic effect of vitamin C supplementation on broiler ascites incidence and plasma thyroid hormone concentration. Avian Pathology 26: 33-44.Google Scholar
HERNANDEZ, A. (1984) Disminución en la incidencia de la ascitis aviar de origen hipóxico con el incremento de la temperatura en los galpones. Proceedings of the 14th National Veterinary Congress, Cartagena, p. 6.Google Scholar
HERNANDEZ, A. (1987) Hypoxic ascites in broilers: A review of several studies done in Colombia. Avian Diseases 31: 658-661.CrossRefGoogle ScholarPubMed
HOLLE, J.P., HEISLER, N. and SCHEID, P. (1978) Blood flow distribution in the duck lung and its control by respiratory gases. American Journal of Physiology 234: 146-154.Google Scholar
HUCHZERMEYER, F.W. (1988) Avian pulmonary hypertension syndrome. IV. Increased right ventricular mass in turkeys experimentally infected with Plasmodium durae. Onderstepoort Journal of Veterinary Research 55: 107-108.Google ScholarPubMed
HUCHZERMEYER, F.W. (1989) Broiler ascites research: Where are we? SAPA Poultry Bulletin 1989: 358.Google Scholar
HUCHZERMEYER, F.W., CILLIERS, J.A., DIAZ-LAVIGNE, C.D. and BARTKOWIAK, R.A. (1987) Broiler pulmonary hypertension syndrome. I. Increased right ventricular mass in broilers experimentally infected with Aegyptianella pullorum. Onderstepoort Journal of Veterinary Research 54: 113-114.Google ScholarPubMed
HUCHZERMEYER, F.W. and DE RUYCK, A.M.C. (1986) Pulmonary hypertension syndrome associated with ascites in broilers. Veterinary Record 119: 93.CrossRefGoogle ScholarPubMed
HUCHZERMEYER, F.W., DE RUYCK, A.M.C. and VAN ARK, H. (1988) Broiler pulmonary hypertension syndrome. III. Commercial broiler strains differ in their susceptibility. Onderstepoort Journals of Veterinary Research 55: 5-9.Google ScholarPubMed
HUCHZERMEYER, F.W., VAN DER COLF, W.J. and GUINANE, P.R. (1989) Broiler ascites: Increased oxygen demand with cold may explain high winter incidence. SAPA Poultry Bulletin 1989: 474-483.Google Scholar
JULIAN, R.J. (1987) The effect of increased sodium in the drinking water on right ventricular hypertrophy, right ventricular failure and ascites in broiler chickens. Avian Pathology 16: 61-71.Google Scholar
JULIAN, R.J. (1988) Ascites in meat-type ducklings. Avian Pathology 17: 11-21.CrossRefGoogle ScholarPubMed
JULIAN, R.J., FRIARS, G.W., FRENCH, H. and QUINTON, M. (1987) The relationship of right ventricular hypertrophy, right ventricular failure, and ascites to weight gain in broiler and roaster chickens. Avian Diseases 31: 130-135.CrossRefGoogle ScholarPubMed
JULIAN, R.J., MCMILLAN, I. and QUINTON, M. (1989) The effect of cold and dietary energy on right ventricular hypertrophy, right ventricular failure and ascites in meat-type chickens. Avian Pathology 18: 675-684.CrossRefGoogle ScholarPubMed
JULIAN, R.J. and WILSON, J.B. (1984) Ascites in broiler chickens caused by high levels of carbon dioxide. Proceedings 56th Northeastern Conference on Avian diseases. University Park, Pa, USA.Google Scholar
LONG, P.H. (1926) Experimental anemia produced by phenylhydrazine derivatives. Journal of Clinical Investigation 2: 329-342.Google Scholar
MAXWELL, M.H., DICK, L.A. and MITCHELL, M.A. (1989) Ectopic cartilaginous and osseous lung nodules induced in the young broiler by inadequate ventilation. Avian Pathology 18: 113-124.Google Scholar
MAXWELL, M.H., ROBERTSON, G.W. and SPENCE, S. (1986) Studies on an ascitic syndrome in young broilers. I. Haematology and pathology. Avian Pathology 15: 511-524.Google Scholar
MELTZER, A. (1987) Acclimatization to ambient temperature and its nutritional consequences. World's Poultry Science Journal 43: 33-44.Google Scholar
OU, L.C. and SMITH, R.P. (1984) Strain and sex differences in the cardiopulmonary adaptation of rats to high altitude. Proceedings of the Society for Experimental Biology and Medicine 177: 308-311.Google Scholar
REID, L.M. (1986) Structure and function in pulmonary hypertension. Chest 89: 279-288.CrossRefGoogle ScholarPubMed
RUBIO, E. and LOPEZ COELLO, C. (1986) Efecto de una restricción alimenticia sobre la incidencia del síndrome ascítico. Proceedings 35th Western Poultry Disease Conference, pp 165-167, Mexico, Puerte Vallarta.Google Scholar
SILLAU, A.H., CUEVA, S. and MORALES, P. (1980) Pulmonary arterial hypertension in male and female chickens at 3300 m. Pflügers Archiv 336: 269-275.Google Scholar
SMITH, W. (1989) Progress of the broiler breeding programme at National Poultry Breeders. SAPA Poultry Bulletin 1989: 86-87.Google Scholar
SNEDDON, J.C., VAN DER WALT, J.B., SOLEY, J., HUCHZERMEYER, F.W., VERSTER, R.S. and GUINANE, P.R. (1989) Pulmonary hypertension syndrome in broilers. A pilot trial on physiological indices. Proceedings of the Conference of the South African Physiological Society, 85: 330-331, Dikhololo, South Africa.Google Scholar
SUAREZ, E. and RUBIO, M. (1989) Uso de restricción como control parcial del síndrome ascítico. Veterinaria Mexicana 20: 193-195.Google Scholar
TIMMWOOD, K.I., HYDE, D.M. and PLOPPER, C.G. (1987) Lung growth of the turkey, Meleagris gallopavo. II. Comparison of two genetic lines. The American Journal of Anatomy 178: 158-169.CrossRefGoogle ScholarPubMed
VAN DE WATER, A., WOUTERS, L., XHONNEUX, R. and RENEMAN, S. (1985) Cardiovascular effects of ketanserin in close-chest anesthetized dogs. Archives Internationales de Pharmacodynamie et de Thérapie 275: 267-278.Google Scholar
VIDYADARAN, M.K., KING, A.S. and KASSIM, H. (1987) Deficient anatomical capacity for oxygen uptake of the developing lung of the female domestic fowl when compared with the red jungle fowl. Schweizer Archiv für Tierheilkunde 129: 225-237.Google ScholarPubMed
VIDYADARAN, M.K., KING, A.S. and KASSIM, H. (1988) Quantitative studies of the lung of the domestic fowl. Pertanika 11: 229-238.Google Scholar
VIDYADARAN, M.K., KING, A.S. and KASSIM, H. (1990) Quantitative comparisons of lung structure of adult domestic fowl and red jungle fowl. Avian Pathology 19: 51-58.CrossRefGoogle ScholarPubMed
WEIL, J.V., BYRNE-QUINN, E., SODAL, I.E., FILLEY, G.F. and GROVER, R.F. (1971) Acquired attenuation of chemoreceptor function in chronically hypoxic man at high altitude. The Journal of Clinical Investigation 50: 186-195.Google Scholar
WIDEMAN, R.F., ISMAEL, M., KOCHERA KIRBY, Y., BOTTJE, W.G., MOORE, R.W. and VARDEMAN, R.C. (1995a) Furosemide reduces the incidence of pulmonary hypertension syndrome in broilers exposed to cool environmental temperatures. Poultry Science 74: 314-322.Google Scholar
WIDEMAN, R.F., KOCHERA KIRBY, Y., ISMAEL, M., BOTTJE, W.G., MOORE, R.W. and VARDEMAN, R.C. (1995b) Supplemental l-arginine attenuates pulmonary hypertension syndrome (ascites) in broilers. Poultry Science 74: 323-330.Google Scholar