Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-18T22:18:45.009Z Has data issue: false hasContentIssue false

Governmental regulations and concept behind eradication and control of some important poultry diseases

Published online by Cambridge University Press:  18 September 2007

H.M. Hafez
Affiliation:
Institute of Poultry Diseases, Free University Berlin, Königsweg 63, 14163 Berlin, Germany E-mail: [email protected]
Get access

Abstract

Infectious diseases of poultry are mostly associated with severe economic losses. Many of these diseases once re-emerging or introduced into a geographic area, can explode into an epidemic and may have a significant negative effect on international trade. Beside general control approaches like biosecurity, improvement of rearing management, monitoring, and vaccination several governmental measures on control of poultry diseases were adopted in European countries.

Eradication policy and killing of animals for disease control purposes are commonly applied in cases of suspicion or confirmed outbreaks of emergency diseases, outbreaks of diseases with a considerable public health and/or economic impact and in case of possible irregularities during the intra-community trade of live animals and their products.

The List A of the Office of International Epizooties (OIE) including rapidly spreading diseases of major economic importance, such as highly pathogenic Avian influenza (AI) and Newcastle Disease (ND). The EU legislation to control Avian influenza is laid down in Council Directive 92/40/EEC (EEC, 1992a) introducing Community measures for the control of Avian influenza. For the Newcastle disease the Council Directive 92/66/EEC (EEC, 1992b) introducing Community measures for the control of Newcastle disease is laid down. In addition, the European Union adopted a Council Regulation 2160/2003/EC (EC, 2003b) on the control of salmonella and other specified food-borne zoonotic agents.

There are also a number of Council Directives covering the control of diseases such as:

- Directive 82/894/EEC on the notification of animal diseases within the Community (EEC, 1982).

- Directive 90/425/EEC concerning veterinary and zootechnical checks applicable to intra-Community trade in certain live animals and products with a view to the completion of the internal market (EEC, 1990a).

- Directive 90/667/EEC laying down the veterinary rules for disposal and processing of animal waste, for its placing on the market and for the prevention of pathogens in feedstuffs of animal or fish origin (EEC, 1990b) and amending Directive 90/425/EEC.

- Directive 90/539/EEC on animal health conditions governing intra-Community trade in, and imports from third countries of, poultry and hatching eggs (EEC1990c).

- Directive 91/496/EEC laying down the principles governing the organization of veterinary checks on animals entering the Community from third countries (EEC, 1991) and amending Directives 89/662/EEC, 90/425/EEC and 90/675/EEC.

The aim of this paper is to describe the regulations related to control of the above mentioned diseases and /or infections.

Type
Reviews
Copyright
Copyright © Cambridge University Press 2005

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

Alexander, D.J. (2000) Newcastle disease, other avian paramyxoviruses. In Diseases of poultry: world trade and public health. Review Scientific Technical Office International Epizootics (O.I.E.) 19(2): 443462.CrossRefGoogle Scholar
Alexander, D.J. (2003) Newcastle disease, other avian paramyxoviruses, and Pneumovirus Infections. In: Diseases of Poultry, 11th Ed. Saif, Y.M., Barnes, H.J.Glisson, J.R.Fadly, A.M.McDougald, L.R.Swayne, D.E., (Eds.). Ames, Iowa State Press a Blackwell Publishing company. pp. 6387.Google Scholar
Alexander, D.J. (1980) Avian paramyxoviruses. Veterinary Bulletin 50: 737752.Google Scholar
Alexander, D.J. and Spackman, D. (1981) Characterization of influenza A viruses isolated from turkeys in England during March - May 1979. Avian Pathology 10: 281293.CrossRefGoogle ScholarPubMed
Anon.(2000) The Definition of Avian influenza. The use of Vaccination against Avian influenza. Draft report for possible adoption on27 June 2000.Scientific Committee on Animal Health and Animal Welfare. European Commission Sanco/B3/AH/R17/2000. pp.1–38.Google Scholar
Bahl, A.K.Langston, A., Van Deusen, R.A., Pomeroy, B.S., Newman, J., Karunakaran, D. and Halvorson, D. (1979) Prevention and control of Avian influenza in turkeys. Proceedings of the Annual Meeting of the United States Animal Health Association 83: 355363.Google Scholar
Barrow, P.A. (1991) Experimental infection of chickens with Salmonella enteritidis. Avian Pathology 20: 145153.CrossRefGoogle ScholarPubMed
Barrow, P.A. (1997) Novel approaches to control of bacterial infections in animals. Acta Veterinaria Hungarica 45: 317329.Google ScholarPubMed
Beard, C.W. and Hanson, R.P. (1984) Newcastle disease. In: Diseases of Poultry 8th Ed. Hofstad, M.S.Barnes, H.J.Calnek, B.W.Reid, W.M., and Yoder, H.W., (Eds.). Ames, Iowa State University Press. pp. 452–70.Google Scholar
Brownell, J.R., Sadler, W.W. and Fanelli, M.J. (1969) Factors influencing the intestinal infection of chickens with Salmonella typhimurium. Avian Diseases 13: 804816.CrossRefGoogle ScholarPubMed
Brugh, M. and Johnson, D.C. (1987) Epidemiology of Avian influenza in domestic poultry. Proceedings of the 2nd International Symposium on Avian influenza, Richmond VA,.U.S.A.Animal Health Association. pp. 177–186.Google Scholar
Capua, I., Mutinelli, F., Campisi, M., Ferre, N. and Manca, G. (2000) Italian Avian influenza epidemic. International Poultry Production 8: 1517.Google Scholar
Capua, I., Marangon, S., Cattoli, G., Bortolotti, L. and Terregino, C. (2002) A novel control strategy for Avian influenza in densely populated poultry areas. Proceedings of the 4th International symposium on turkey diseases (Ed.Hafez, H.M.). Berlin, ISBN 3-936815-58-5. pp. 162–167.Google Scholar
Capua, I., Terregino, C., Cattoli, G., Mutinelli, F. and Rodriguez, J.F. (2003) Development of a DIVA-Differentiating infected from vaccinated animals- strategy using a vaccine containing a heterologous neruraminidase for the control of Avian influenza. Avian Pathology 32: 4755.CrossRefGoogle Scholar
Davies, R.H. and Wray, C. (1994) Salmonella pollution in poultry units and associated enterprises. In: Pollution in Livestock Production System (Dewi, A., Axford, R., Marai, F.M. (Eds)). CAB International, Wallingford, UK, pp. 137165.Google Scholar
De Leeuw, O.E. and Peeters, B. (1999) Complete nucleotide sequence of Newcastle disease virus: evidence for existence of a new genus within the subfamily Paramyxovirinae. Journal of General Virology 80: 131136.CrossRefGoogle ScholarPubMed
Ec (2002) Regulation (EC) No 1774/2002 of the European Parliament and of the Council of 3 October 2002 laying down health rules concerning animal by-products not intended for human consumption. Official Journal of the European Commission. L 273: 195Google Scholar
Ec (2003a) Directive 2003/99/EC of the European Parliament and of the Council of 17 November 2003 on the monitoring of zoonoses and zoonotic agents, amending Council Decision 90/424/EEC and repealing Council Directive 92/117/EEC. Official Journal of the European Commission. L 325: 3140Google Scholar
Ec (2003b) Regulation (EC) No 2160/2003 of the European Parliament and of the Council of 17 November 2003 on the control of salmonella and other specified foodborne pathogens. Official Journal of the European Commission. L 325: 115.Google Scholar
Eec (1982) Directive 82/894/EEC of 21 December 1982 on the notification of animal diseases within the Community. Official Journal of the European Commission. L 378: 5862.Google Scholar
Eec (1990a) Council Directive 90/425/EEC of 26 June 1990 concerning veterinary and zootechnical checks applicable in intra-Community trade in certain live animals and products with a view to the completion of the internal market. Official Journal of the European Commission. L 224: 2941.Google Scholar
Eec (1990b) Council Directive 90/667/EEC of 27 November 1990 laying down the veterinary rules for the disposal and processing of animal waste, for its placing on the market and for the prevention of pathogens in feedstuffs of animal or fish origin and amending Directive 90/425/EEC. Official Journal of the European Commission. L 363: 5160.Google Scholar
Eec (1990c) Council Directive 90/539/EEC of 15 October 1990 on animal health conditions governing intraCommunity trade in, and imports from third countries of, poultry and hatching eggs. Official Journal of the European Commission. L 303: 628.Google Scholar
Eec (1990d) Council Decision 90/424/EEC of 26 June 1990 on expenditure in the veterinary field. Official Journal of the European Commission. L 224: 1928.Google Scholar
Eec (1991) Council Directive 91/496/EEC of 15 July 1991 laying down the principles governing the organization of veterinary checks on animals entering the Community from third countries and amending Directives 89/662/EEC,90/425/EEC and 90/ 675/EEC. Official Journal of the European Commission. L 268: 5668.Google Scholar
Eec (1992a) Council Directive 92/40/EEC of 14 July 1992 introducing Community measures for the control of Newcastle disease. Official Journal of the European Commission. L 260: 120.Google Scholar
Eec (1992b) Council Directive 92/66/EEC of 19 May 1992 introducing Community measures for the control of Avian influenza. Official Journal of the European Commission. L 167: 115.Google Scholar
Eec (1992c) Council Directive 92/117/EEC of 17 December 1992 concerning measures for protection against specified zoonoses and specified zoonotic agents in animals and products of animal origin in order to prevent outbreaks of food-borne infections and intoxications. Official Journal of the European Commission. L 62: 3848Google Scholar
Ellis, T.M., Sims, L.D., Wong, H.K.H., Bisset, L.A., Dyrting, K.C., Chow, K.W. and Wong, C.W. (2004) Evaluation of vaccination to support control of H5N1 Avian influenza in Hong Kong. (Cited from LEONG, 2004).Google Scholar
Fouchier Ron, A.M., Vincent Munster, V., Anders Wallensten, A., Bestebroer, T.M., Sander Herfst, S., Smith, D., Rimmelzwaan, G.F., Olsen, B. and Osterhaus, A.D.M.E. 2005. Characterization of a Novel Influenza AVirus Hemagglutinin Subtype (H16) Obtained from Black-Headed Gulls. Journal of Virology 79: 52814–2822.Google Scholar
Garcia, A., Johnson, H., Srivastava, D.K, Jayawardene, D.A., Wehr, D.R. and Webster, R.G. (1998) Efficacy of inactivated H5N2 influenza vaccines against lethal A/chicken/Queretaro/19/95 infection. Avian Diseases 42: 248256.CrossRefGoogle ScholarPubMed
Gast, R.K. (2003) Paratyphoid Infections. In: Diseases of Poultry, 11th Ed. Saif, Y.M., Barnes, H.J.Glisson, J.R.Fadly, A.M., McDougald, L.R.Swayne, D.E., (Eds.). Ames, Iowa State Press a Blackwell Publishing company. pp. 583613.Google Scholar
Hafez, H.M. (1999) Poultry meat and food safety: pre- and post-harvest approaches to reduce food borne pathogens. World's Poultry Science Journal 55: 269280.CrossRefGoogle Scholar
Hafez, H.M. (2001) Salmonella infections in poultry: diagnosis and control. Periodicum Biologorum 103: 103113.Google Scholar
Hafez, H.M. and Stadler, A. (1997) Salmonella enteritidis colonization in turkey poults. Deutsche Tierärztliche Wochenschrift 104: 85124.Google ScholarPubMed
Hafez, H.M. and Jodas, S. (2000) Salmonella infections in Turkeys. In: Salmonella in domestic animals, Ed. Wray, C. and Wray, A. CABI Publishing ISBN 0 85199 261 7. pp.133155.CrossRefGoogle Scholar
Halvorson, D.A. (2002) The control of H5 and H7 mildly pathogenic Avian influenza: a role for inactivated vaccine. Avian Pathology 31: 512.CrossRefGoogle ScholarPubMed
Halvorson, D.A., Frame, D.D., Friendshuh, A.J. and Shaw, D.P. (1998) Outbreaks of low pathogenicity Avian influenza in USA. Proceedings of the 4th International Symposium on Avian influenza Athens, Georgia. USA Animal Health Association. pp.3646.Google Scholar
Halvorson, D.A., Karunakaran, D. and Newman, J.A. (1980) Avian influenza in caged laying chickens. Avian Diseases 24: 288294.CrossRefGoogle Scholar
Halvorson, D.A., Karunakaran, D., Senne, D., Kelleher, C., Bailey, C., Abraham, A., Hinshaw, V. and Newman, J. (1983) Epizootiology of Avian influenza simultaneous monitoring of sentinel ducks and turkeys in Minnesota. Avian Diseases 27: 7785.CrossRefGoogle ScholarPubMed
Halvorson, D.A., Kelleher, C.J., Pomeroy, B.S, Sivanandan, V., Abraham, A.S., Newman, J.A., Karunakaran, D., Poss, P.E., Senne, D.A. and Pearson, J.E. (1987) Surveillance procedures for Avian influenza. Proceedings of the 2nd International Symposium on Avian influenza, 1986. University of Wisconsin, Madison. pp.155163.Google Scholar
Hinshaw, V.S., Webster, R.G. and Turner, B. (1980) The perpetuation of orthomyxoviruses and paramyxoviruses in Canadian waterfowl. Canadian Journal of Microbiology 26: 622629.CrossRefGoogle ScholarPubMed
Kaleta, E.F. and Baldauf, C. (1988) Newcastle disease in free-living and pet birds. In: Newcastle Disease. Alexander, D.J. (Ed.). Boston, Kluwer Academic Publishers. pp. 197246.CrossRefGoogle Scholar
Lancaster, J.E. and Alexander, D.J. (1975) Newcastle disease: virus and spread. Monograph No. 11. Canada Department of Agriculture, Ottawa.Google Scholar
Le Minor, L. and Popoff, M.Y. (1987) Request for an opinion. Designation of Salmonella enterica sp. Nov., nom. rev., as the type and only species of the genus Salmonella. International Journal of Systematic Bacteriology 37: 465468.CrossRefGoogle Scholar
Leong, V.Yin-Ming, Ellis, T.M., Chow, K.W., Bisset, L.A., Dyrting, K.C. and Wong, C.W. (2004) Avian influenza Control And Monitoring In Hong Kong: Proceedings of the 53rd Western Poultry Disease Conference,Sacramento, USA, pp. 57–59.Google Scholar
Leslie, J. (2000) Newcastle disease: outbreak losses and control policy costs. Veterinary Record 146: 603606.CrossRefGoogle ScholarPubMed
Lipkind, M. and Shihmanter, E. (1986) Antigenic relationships between avian paramyxoviruses. Quantitative characteristics based on hemagglutination and neuraminidase inhibition test. Archives of Virology 89: 89111.CrossRefGoogle Scholar
Naeem, K. (1998) The Avian influenza H7N3 outbreak in South Central Asia. Proceedings of the 4th International Symposium on Avian influenzaAthens, GeorgiaU.S. Animal Health Association. pp. 31–35.Google Scholar
Pomeroy, B.S. (1981) Avian influenza in the United States (1964–1980). Proceedings of the 1st International Symposium on Avian influenza,1981.Richmond, VA, USA,Carter Composition Corporation. pp. 13–17.Google Scholar
Rima, B.K., Alexander, D.J., Billeter, M.A., Collins, P.L., Kingsbury, D.W., Lipkind, M.A., Nagai, Y., Orvell, C., Pringle, C.R. and Ter Meulen, V. (1995) The Paramyxoviridae.In: Virus Taxonomy. The Sixth Report of the International Committee on Taxonomy of Viruses, pp. 268–274. Edited by Murphy, F.A.Fauquet, C.M.Bishop, D.H.L.Gabrial, S.A.Jarvis, A.W.Martelli, G.P.Mayo, M.A. & Summers, M.D.. Vienna & New York: Springer-Verlag.Google Scholar
Shivaprasad, H.L. (2003) Pullorum Disease and Fowl Typhoid. In: Diseases of Poultry,11th Ed. Saif, Y.M., Barnes, H.J.Glisson, J.R.Fadly, A.M., McDougald, L.R.Swayne, D.E., (Eds.). Ames, Iowa State Press a Blackwell Publishing company. pp. 568582.Google Scholar
Swayne, D.E. and Halvorson, D.A. (2003) Influenza. In: Diseases of Poultry, 11th Ed. Saif, Y.M., Barnes, H.J.Glisson, J.R.Fadly, A.M., McDougald, L.R.Swayne, D.E., (Eds.). Ames, Iowa State Press a Blackwell Publishing company. pp. 135160.Google Scholar
Utterback, W. (1984) Update on Avian influenza through February 21, 1984 in Pennsylvania and Virginia. Proceedings of the 33rd Western Poultry Disease Conference. pp. 47.Google Scholar
Villarreal, C.L. and Flores, A.O. (1998) The Mexican Avian influenza H5N2 outbreak. Proceedings of the 4th International Symposium on Avian influenza.Athens, Georgia. pp. 1822.Google Scholar