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Infectious bursal disease

Published online by Cambridge University Press:  18 September 2007

H. N. Lasher
Affiliation:
Lasher Associates Inc., P.O. Box 345, Rte. 113.5, Millsboro, Delaware 19966, USA
S. M. Shane
Affiliation:
School of Veterinary Medicine, Louisiana State University, Baton Rouge, Louisiana 70803, USA
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Abstract

Infectious bursal disease (IBD), caused by an avibirnavirus, has been an economically significant, widely distributed condition affecting immature chickens since 1960. The classical type 1 conventional strain is responsible for up to 5% mortality in susceptible flocks. As a result of immunosuppression, growth rate, liveability, and productivity may be adversely affected by subsequent exposure to a wide range of viral, bacterial, and protozoal agents. The emergence of highly pathogenic strains of IBD virus in 1988 caused heavy losses in broiler and replacement breeder and commercial egg pullets in Europe, and subsequently in Africa and Asia. The causal virus is extremely lymphocidal with an affinity for immature B cells resulting in bursal atrophy approximately four days after infection. IBD virus is resistant to environmental exposure and is transmitted laterally by direct and indirect contact between infected and susceptible flocks. Conventional IBD is controlled by immunization of parent stock followed by vaccination of progeny after maternal antibody levels have waned. Parent level stock is immunized by one or two successive doses of live, mild or intermediate strain, attenuated vaccine to prime the immune system, followed by inactivated oil emulsion vaccines at maturity and at the mid-point of the laying cycle to boost immunity and ensure transfer of protective maternal antibody to progeny. Highly pathogenic IBD is controlled by a number of alternative strategies, including administration of live vaccines of low attenuation or simultaneous doses of live intermediate strain attenuated vaccine with inactivated oil emulsion during the first week. All successful programmes require diligent care regarding handling and administration of vaccine. Serological monitoring using automated ELISA technology is an accepted method of confirming that flocks are adequately protected. In the future recombinant and subunit vaccines will be developed to control existing strains and the variants which will emerge in areas with a high density of poultry production.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1994

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References

Abdu, P. A., Abdullahi, S. U., Adesiyun, A. A. and Ezeokoli, C. D. (1986) Infectious bursal disease. World's Poultry Science Journal 42: 219231CrossRefGoogle Scholar
Alexander, D. J. (1991) Pneumovirus infections (turkey rhinotracheitis and swollen head syndrome of chickens). In: Diseases of Poultry, 9th edn (Eds Calnek, B. W., Barnes, H. J., Beard, C. W., Reid, W. M. and Yoder, H. W.), Iowa State University Press, Ames, Iowa, pp 669673Google Scholar
Allan, W. H., Faragher, J. T. and Cullen, G. A. (1972) Immunosuppression by the infectious bursal agent in chickens immunized against Newcastle disease. Veterinary Record 90: 511512CrossRefGoogle ScholarPubMed
Allan, G. M., McNulty, M. S., Connor, T. J., McCracken, R. M. and McFerran, J. B. (1984) Rapid diagnosis of infectious bursal disease infection by immunofluorescence on clinical material. Avian Pathology 13: 419427CrossRefGoogle ScholarPubMed
Almeida, J. D. and Morris, R. (1973) Antigenically-related viruses associated with infectious bursal disease. Journal of General Virology 20: 369375CrossRefGoogle ScholarPubMed
Anderson, W. I., Reid, M. W., Lukert, P. D. and Fletcher, O. J. (1977) Influence of infectious bursal disease on the development of immunity to Eimeria tenella. Avian Diseases 21: 637641CrossRefGoogle ScholarPubMed
Azad, A. A., Jagadish, M. N., Brown, M. A. and Hudson, P. J. (1987) Deletion mapping and expression in Escherichia coli of the large genomic segment of a birnavirus. Virology 161: 145152CrossRefGoogle ScholarPubMed
Bang, B. G. and Bang, F. B. (1968) Localized lymphoid tissues and plasma cells in paraocular and paranasal organ systems in chickens. American Journal of Pathology 53: 735751Google ScholarPubMed
Baxendale, W. (1976) The development of an apathogenic infectious bursal vaccine: field trial results. Proceedings of the 25th Western Poultry Disease Conference,Davis, California pp. 42–45Google Scholar
Becht, H., Müller, H. and Müller, H. K. (1988) Comparative studies on structural and antigenic properties of two serotypes of infectious bursal disease virus. Journal of General Virology 69: 631640CrossRefGoogle ScholarPubMed
Benton, W. J., Cover, M. S. and Rosenberger, J. K. (1967a) Studies on the transmission of the infectious bursal agent (IBA) of chickens. Avian Diseases 11: 430438CrossRefGoogle ScholarPubMed
Benton, W. J., Cover, M. S., Rosenberger, J. K. and Lake, R. S. (1967b) Physico-chemical properties of the infectious bursal agent (IBA) Avian Diseases 11: 438445CrossRefGoogle Scholar
Bengelsdorff, H-J. and Bernhardt, D. (1971) Serological examinations after vaccination of chicks with mouse-adapted infectious bursitis virus. Proceedings of the 19th World Veterinary Congress, Mexico City, Mexico 2: 786787Google Scholar
Box, P. (1988) Antibody profile of broiler breeders hens and their progeny immunized with bursalderived or embryo-origin killed infectious bursal disease vaccine. Proceedings of the 37th Western Poultry Disease Conference,Davis, California pp. 21–24Google Scholar
Briggs, D. J., Whitfill, C. E., Skeeles, J. K., Story, J. D. and Reed, K. D. (1986) Application of the positive/negative ratio method of analysis to quantitate antibody responses to infectious bursal disease virus using a commercially available ELISA. Avian Diseases 30: 216218CrossRefGoogle ScholarPubMed
Bumstead, N., Reece, R. L. and Cook, J. K. A. (1993) Genetic differences in susceptibility of chicken lives to infection with infectious bursal disease virus. Poultry Science 72: 403410CrossRefGoogle Scholar
Bygrave, A. C. and Faragher, J. T. (1970) Mortality associated with gumboro disease. Veterinary Record 86: 758759Google Scholar
Chettle, N., Eddy, R. K. and Wyeth, P. J. (1985) The isolation of infectious bursal disease virus from turkeys in England. British Veterinary Journal 141: 141145CrossRefGoogle ScholarPubMed
Chettle, N., Stuart, J. C. and Wyeth, P. J. (1989) Outbreak of virulent infectious bursal disease in East Anglia. Veterinary Record 125: 271272CrossRefGoogle ScholarPubMed
Cheville, N. F. (1967) Studies on the pathogenesis of gumboro disease in the bursa of Fabricius, spleen, and thymus of the chicken. American Journal of Pathology 51: 527551Google ScholarPubMed
Chin, R. P., Yamamoto, R., Lin, W., Lam, K. M. and Farver, T. B. (1984) Serological survey of infectious bursal disease virus serotypes 1 & 2 in California turkeys. Avian Diseases 28: 10261036CrossRefGoogle ScholarPubMed
Cho, B. R. (1970) Experimental dual infections of chickens with infectious bursal and Marek's disease agents I. Preliminary observations on the effect of infectious bursal agent on Marek's disease. Avian Diseases 14: 665675CrossRefGoogle ScholarPubMed
Cho, Y. and Edgar, S. A. (1969) Characterization of the infectious bursal agent. Poultry Science 48: 21022109.CrossRefGoogle ScholarPubMed
Christensen, N. H. (1985) The cost to the meat chicken industry of the introduction of infectious bursal disease to New Zealand. New Zealand Veterinary Journal 33: 191193CrossRefGoogle Scholar
Chubb, R. C. and Jackson, C. A. W. (1979) Infectious bursal disease – developing an Australian vaccination strategy. Proceedings of the 3rd Australian Poultry and Stock Feed Convention, Sydney, Australia pp. 123128Google Scholar
Chulan, U. (1993) Diagnosis and control of infectious bursal disease in Malaysia. Proceedings of the Xth World Veterinary Poultry Association Congress,Sydney, Australia p. 159 (abstract)Google Scholar
Claxton, P. D. and McGavin, D. (1993) Early protection of broiler chickens against infectious bursal disease. Proceedings of the Xth World Veterinary Poultry Association Congress,Sydney, Australia p. 160Google Scholar
Cloud, S. S., Lillehoj, H. S. and Rosenberger, J. K. (1992a) Immune dysfunction following infection with chicken anemia agent and infectious bursal disease virus. I. Kinetic alterations of avian lymphocyte subpopulations. Veterinary Immunology and Immunopathology 34: 337352.CrossRefGoogle ScholarPubMed
Cloud, S. S., Rosenberger, J. K. and Lillehoj, H. S. (1992b) Immune dysfunction following infection with chicken anemia agent and infectious bursal disease virus. II. Alteration of in vitro immune responses. Veterinary Immunology and Immunopathology 34: 353366CrossRefGoogle Scholar
Confer, A. W., Springer, W. T., Shane, S. M. and Donovan, J. F. (1981) Sequential mitogen stimulation of peripheral blood lymphocytes from chickens inoculated with infectious bursal disease virus. American Journal of Veterinary Research 42: 21092113Google ScholarPubMed
Cosgrove, A. S. (1962) An apparently new disease of chickens – avian nephrosis. Avian Diseases 6: 385389CrossRefGoogle Scholar
Cover, M. (1960) Poultry Pathology Letter No. 29, University of Delaware, p. 1Google Scholar
Cover, M. (1965) Poultry Pathology Letter No. 55, University of Delaware, p. 1Google Scholar
Cruz-Coy, J. S. (1992) Antigenic variation of ‘standard’ and ‘variant’ subtypes of infectious bursal disease virus by cross-protection and monoclonal antibody studies. PhD Thesis, Auburn University, Auburn, AlabamaGoogle Scholar
Cullen, G. A. and Wyeth, P. (1975) Quantitation of antibodies to infectious bursal disease. Veterinary Record 97: 315CrossRefGoogle ScholarPubMed
Cummings, T. S., Broussard, C. T., Page, R. K., Thayer, S. G. and Lukert, P. D. (1986) Infectious bursal disease virus in turkeys. Veterinary Bulletin 56: 757762Google Scholar
Cursiefen, D., Vielitz, E., Landgraf, H. and Becht, H. (1979) Evaluation of a vaccine against infectious bursal disease in field trials. Avian Pathology 8: 341351CrossRefGoogle ScholarPubMed
Martins, DaSilva N. R., Mockett, A. P. A. and Cook, J. K. A. (1992) The immunoglobulin M response in chicken serum to infectious bursal disease virus. Avian Pathology 21: 517521CrossRefGoogle ScholarPubMed
Davelaar, F. G. and Kouwenhoven, B. (1977) Influence of maternal antibodies on vaccination of chicks of different ages against infectious bronchitis. Avian Pathology 6: 4150CrossRefGoogle ScholarPubMed
Dobos, P. (1979) Peptide map comparison of the proteins of infectious bursal disease virus. Journal of Virology 32: 10461050.CrossRefGoogle ScholarPubMed
Dobos, P., Hill, B. J., Hallet, R., Kells, D. T., Becht, H. and Teninges, D. (1979) Biophysical and biochemical characterization of five animal viruses with bisegmented doublestranded RNA genomes. Journal of Virology 32: 593605.CrossRefGoogle ScholarPubMed
Dohms, J. E., Lee, K. P. and Rosenberger, J. K. (1981) Plasma cell changes in the gland of Harder following infectious bursal disease virus infection of the chicken. Avian Diseases 25: 683695.CrossRefGoogle ScholarPubMed
Dohms, J. E., Lee, K. P., Rosenberger, J. K. and Metz, A. L. (1988) Plasma cell quantitation in the gland of Harder during infectious bursal disease virus infection of 3-week old broiler chicks. Avian Diseases 32: 624631CrossRefGoogle Scholar
Dorn, P., Kronthaler, O. and Schindler, P. (1968) Erfahrungen über verlauf und bekampfung der gumboro krankheit. Berliner Münchener-Tierürztliche Wochenschrift 14: 272275Google Scholar
Edgar, S. A. and Cho, Y. (1965) Avian nephrosis (gumboro disease) and its control by immunization. Poultry Science 44: 1366 (abstract)Google Scholar
Edgar, S. A. and Cho, Y. (1973) Immunization of chickens for the control of infectious bursal disease. Poultry Science 52: 492497CrossRefGoogle ScholarPubMed
Edwards, K. R., Muskett, J. C. and Thornton, D. H. (1982) Duration of immuno-suppression caused by a vaccine strain of infectious bursal disease virus. Research in Veterinary Science 32: 7983CrossRefGoogle Scholar
Edwards, W. A. (1981) Subclinical infectious bursal disease in the broiler industry: interim report. Veterinary Record 81: 8889Google Scholar
Eidson, C. S., Gelb, J., Villegas, P., Page, R. K., Lukert, P. D. and Kleven, S. H. (1980) Comparison of inactivated and live infectious bursal disease virus vaccines in white Leghorn breeder flock. Poultry Science 59: 27082716CrossRefGoogle ScholarPubMed
Engvall, E. and Perlman, P. (1971) Enzyme-linked immunosorbent assay (ELISA). Quantitative assay of immunoglobulin G. Immunochemistry 8: 871874CrossRefGoogle ScholarPubMed
Fahey, K. J., Chapman, A. J., Macreadie, I. G., Vaugan, P. R., McKern, N. M., Skicko, J. I. et al. (1991) A recombinant subunit vaccine that protects progeny chickens from infectious bursal disease. Avian Pathology 20: 447460CrossRefGoogle ScholarPubMed
Fahey, K. J., O'Donnell, I. J. and Azad, A. A. (1985) Characterization by Western blotting of the immunogens of infectious bursal disease virus. Journal of General Virology 66: 14791488.CrossRefGoogle ScholarPubMed
Faragher, J. T. (1972) Infectious bursal disease of chickens. Veterinary Bulletin 42: 361369Google Scholar
Faragher, J. T., Allan, W. H. and Cullen, G. A. (1972) Immunosuppressive effect of the infectious bursal agent in the chicken. Nature New Biology 237: 118119CrossRefGoogle ScholarPubMed
Faragher, J. T., Allan, W. H. and Wyeth, P. J. (1974) Immunosuppressive effect of infectious bursal agent on vaccination against Newcastle disease. Veterinary Record 95: 385388CrossRefGoogle ScholarPubMed
Firth, G. A. (1974) Occurrence of an infectious bursal syndrome within an Australian poultry flock. Australian Veterinary Journal 50: 128130CrossRefGoogle ScholarPubMed
Fix, A. S. and Arp, L. H. (1991) Particle uptake by conjunctiva-associated lymphoid tissue (CALT) in turkeys. Avian Diseases 35: 100106CrossRefGoogle ScholarPubMed
Gaudry, D. (1993) Experiences with very virulent IBDV. Proceedings of the 130th Annual Meeting of the American Veterinary Medical Association, Minneapolis, Minnesota p. 156 (abstract)Google Scholar
Giambrone, J. J. and Closser, J. (1990) Efficacy of live vaccines against serologic subtypes of infectious bursal disease virus. Avian Diseases 34: 711CrossRefGoogle ScholarPubMed
Giambrone, J. J., Donahoe, J. P., Dawe, D. L. and Eidson, C. S. (1977) Specific suppression of the bursa-dependent immune system of chicks with infectious bursal disease. American Journal of Veterinary Research 38: 581583Google ScholarPubMed
Giambrone, J. J., Fletcher, O. J., Lukert, P. D., Page, R. K. and Eidson, C. E. (1978) Experimental infection of turkeys with infectious bursal disease virus. Avian Diseases 22: 451458CrossRefGoogle ScholarPubMed
Glick, B. (1991) Historical perspective: the bursa of Fabricius and its influence on B-cell development, past and present. Veterinary Immunology and Immunopathology 30: 312CrossRefGoogle ScholarPubMed
Haffer, K. (1982) Field test studies of the 2512 strain of infectious bursal disease. Avian Diseases 26: 847851.CrossRefGoogle ScholarPubMed
Hanson, B. S. (1967) Post-mortem lesions diagnostic of certain poultry diseases. Veterinary Record 80: 109119CrossRefGoogle ScholarPubMed
Hein, R. G., Lutticken, D., Killian, S. and Thijssen, R. (1993) Characteristics of a broad spectrum bursal disease vaccine strain. Proceedings of the 44th North Central Avian Disease Conference,Columbus, Ohio p. 86 (abstract)Google Scholar
Heine, H-G, Haritou, M., Failla, P., Fahey, K. and Azad, A. (1991) Sequence analysis and expression of the host-protective immunogen VP2 of a variant strain of infectious bursal disease virus which can circumvent vaccination with standard type I strains. Journal of General Virology 72: 18351843CrossRefGoogle ScholarPubMed
Helmboldt, C. F. and Garner, E. (1964) Experimentally induced gumboro disease (IBA) Avian Diseases 8: 561575CrossRefGoogle Scholar
Henry, C. W., Brewer, R. N., Edgar, S. A. and Gray, B. W. (1980) Studies on infectious bursal disease in chickens. 2. Scoring microscopic lesions in the bursa of Fabricius, thymus, spleen, and kidney in gnotobiotic and battery reared white Leghorns experimentally infected with infectious bursal disease virus. Poultry Science 59:10061017CrossRefGoogle ScholarPubMed
Hirai, K. and Calnek, B. W. (1979) In vitro replication of infectious bursal disease virus in established lymphoid cell lines and chicken B lymphocytes. Infection and Immunity 25: 964970CrossRefGoogle ScholarPubMed
Hirai, K. and Shimakura, S. (1974) Structure of infectious bursal disease virus. Journal of Virology 14: 957964CrossRefGoogle ScholarPubMed
Hirai, K., Shimakura, S., Chang, C. N., Adachi, Y., Kawamoto, E., Taguchi, Y. et al. (1973) Isolation of infectious bursal disease virus and distribution of precipitating antibodies in chicken sera. Japanese Journal of Veterinary Science 35: 6170Google ScholarPubMed
Hirai, K., Shimakura, S., Kawamoto, E., Taguchi, F., Kim, S. T., Chang, C. N. et al. (1974) The immunodepressive effect of infectious bursal disease virus in chickens. Avian Diseases 18: 5057.CrossRefGoogle ScholarPubMed
Hitchner, S. B. (1963) Discussion on gumboro disease. Poultry Pathology Letter, University of Delaware 46: 12Google Scholar
Hitchner, S. B. (1970) Infectivity of infectious bursal disease virus for embryonating eggs. Poultry Science 49: 511516CrossRefGoogle ScholarPubMed
Hitchner, S. B. (1976) Immunization of adult hens against infectious bursal disease virus. Avian Diseases 20: 611613CrossRefGoogle ScholarPubMed
Howie, R. I. and Thorsen, J. (1981) Identification of a strain of infectious bursal disease virus isolated from mosquitoes. Canadian Journal of Comparative Medicine 45: 315320Google ScholarPubMed
Hudson, P. J., McKern, N. M., Power, B. E. and Azad, A. A. (1986) Genomic structure of the large RNA segment of infectious bursal disease virus. Nucleic Acids Research 14: 50015012CrossRefGoogle ScholarPubMed
Ide, P. R. (1979) Infectious bursal agent vaccination of chicks from infectious bursal agent-vaccinated dams. Canadian Veterinary Journal 20: 3540Google ScholarPubMed
Ide, P. R. and Stevenson, R. G. (1973) Infectious bursal disease in New Brunswick. Canadian Journal of Comparative Medicine 37: 347355Google ScholarPubMed
Ide, P. R., Schulte-Nordholt, J. A., Dewitt, W. F. and Smith, J. D. (1978) Broiler-breeder vaccination against infectious bursal disease and persistence of maternal antibody in progeny. Canadian Veterinary Journal 19: 123127Google ScholarPubMed
Ismail, N. M. and Saif, Y. M. (1991) Immunogenicity of infectious bursal disease viruses in chickens. Avian Diseases 35: 460469CrossRefGoogle ScholarPubMed
Ismail, N. M., Saif, Y. M., Wigle, W. B., Havenstein, G. B. and Jackson, C. (1990) Infectious bursal disease virus variant from commercial leghorn pullets. Avian Diseases 34: 141145CrossRefGoogle ScholarPubMed
Ivanyi, J. and Morris, R. (1976) Immunodeficiency in the chicken. IV. An immunological study of infectious bursal disease. Clinical and Experimental Immunology 23: 154165Google ScholarPubMed
Jackwood, D. J., Saif, Y. M. and Hughes, J. H. (1982) Characteristics and serologic studies of two serotypes of infectious bursal disease virus in turkeys. Avian Diseases 26: 871882.CrossRefGoogle ScholarPubMed
Jackwood, D. J., Saif, Y. M. and Moorhead, P. D. (1985) Immunogenicity and antigenicity of infectious bursal disease virus serotypes I and II in chickens. Avian Diseases 29: 11841194CrossRefGoogle Scholar
Jones, B. A. H. (1986) Infectious bursal disease serology in New Zealand poultry flocks. New Zealand Veterinary Journal 34: 36.CrossRefGoogle ScholarPubMed
Jönsson, L. G. O. and Engstrom, B. E. (1986) Immunochemical detection of infectious bursal disease and infectious bronchitis viral antigen in fixed paraffin-embedded chicken tissues. Avian Pathology 15: 385393CrossRefGoogle Scholar
Käufer, I. and Weiss, E. (1976) Electron-microscope studies on the pathogenesis of infectious bursal disease after intrabursal application of the causal virus. Avian Diseases 20: 483495CrossRefGoogle ScholarPubMed
Käufer, I. and Weiss, E. (1980) Significance of bursa of Fabricius as target organ in infectious bursal disease. Infection and Immunity 27: 364367CrossRefGoogle ScholarPubMed
Kibenge, F. S. B., Dhillon, A. S. and Russell, R. G. (1988) Biochemistry and immunology of infectious bursal disease virus. Journal of General Virology 69: 17571775CrossRefGoogle ScholarPubMed
Kosters, J. and Geissler, H. (1971) Serologische untersuchungen über die verbreitung der infektiösen bursitis der junghennen (gumboro-krankheit) Tierärztliche Umschau 26: 573575Google Scholar
Kouwenhoven, B. and van den Bos, J. (1992) Control of very virulent infectious bursal disease (gumboro disease) in the Netherlands with so called ‘hot’ vaccines. Proceedings of the 19th World's Poultry Congress, Amsterdam, The Netherlands Vol. 1, pp. 465468Google Scholar
Kouwenhoven, B. and van den Bos, J. (1993) Control of very virulent infectious bursal disease (gumboro disease) in the Netherlands with so called ‘hot’ vaccines. Proceedings of the 42nd Western Poultry Disease Conference,Sacramento, California pp. 37–39Google Scholar
Kreider, D. L., Skeeles, J. K., Parsley, M., Newberry, L. A. and Story, J. D. (1991a) Variability in a commercially available enzyme-linked immunosorbent assay system. I. Assay variability. Avian Diseases 35: 276278CrossRefGoogle Scholar
Kreider, D. L., Skeeles, J. K., Parsley, M., Newberry, L. A. and Story, J. D. (1991b) Variability in a commercially available enzyme-linked immunosorbent assay system. II. Laboratory variability. Avian Diseases 35: 288293CrossRefGoogle Scholar
Landgraf, H., Vielitz, E. and Kirsch, R. (1967) Untersuchungen über das auftreten einer infektiösen erkrankung mit beteiligung der bursa Fabricii (gumboro disease) Deutsche Tierärztliche Wochenschrift 74: 610Google ScholarPubMed
Leonard, J. D. (1974) Immunogenicity of cell culture-adapted infectious bursal disease virus. MS Thesis, University of Georgia, Athens, GeorgiaGoogle Scholar
Levy, M. G., Ley, D. H., Barnes, H. J., Gerig, T. M. and Corbett, W. T. (1988) Experimental cryptosporidiosis and infectious bursal disease virus infection of specific-pathogen-free chickens. Avian Diseases 32: 803811CrossRefGoogle ScholarPubMed
Ley, D. H., Storm, N., Bickford, A. A. and Yumamoto, R. (1979) An infectious bursal disease virus outbreak in 14- and 15-week-old chickens. Avian Diseases 23: 235240CrossRefGoogle ScholarPubMed
Ley, D. H., Yamamoto, R. and Bickford, A. A. (1983) The pathogenesis of infectious bursal disease: serologic, histopathologic, and clinical chemical observations. Avian Diseases 27: 10601085CrossRefGoogle ScholarPubMed
Lucio, B. and Hitchner, S. B. (1979) Infectious bursal disease emulsified vaccine: effect upon neutralizing-antibody levels in the dam. Avian Diseases 23: 466478CrossRefGoogle Scholar
Lucio, B. and Hitchner, S. B. (1980) Immunosuppression and active response induced by infectious bursal disease virus in chickens with passive antibodies. Avian Diseases 24: 189196CrossRefGoogle Scholar
Lukert, P. D. (1985) Serotyping recent isolates of infectious bursal disease virus. Journal of the American Veterinary Medical Association 186: 182 (abstract)Google Scholar
Lukert, P. D. (1992) A history of an IBD vaccine. Select Laboratories Interlink 1: pp. 2 and 4Google Scholar
Lukert, P. D. and Davis, R. B. (1974) Infectious bursal disease virus: growth and characterization in cell cultures. Avian Diseases 18: 243250CrossRefGoogle ScholarPubMed
Lukert, P. D., Leonard, J. and Davis, R. B. (1975) Infectious bursal disease virus: Antigen production and immunity. American Journal of Veterinary Research 36: 539540Google ScholarPubMed
Lukert, P. D. and Hitchner, S. B. (1984) Infectious bursal disease. In: Diseases of Poultry, 8th edn. (Eds Hofstad, M. S., Barnes, H. J., Calnek, B. W., Reid, W. M. and Yoder, H. W.), Iowa State University Press, Ames, Iowa, pp. 566576Google Scholar
Lukert, P. D. and Saif, Y. M. (1991) Infectious bursal disease. In: Diseases of Poultry, 9th edn (Eds Calnek, B. W., Barnes, H. J., Beard, C. W., Reid, W. M. and Yoder, H. W.), Iowa State University Press, Ames, Iowa, pp. 648663Google Scholar
Lütticken, H. D. and Cornelissen, D. R. W. (1985) Infectious bursal disease vaccine. US Patent 4,530,831Google Scholar
MacDonald, R. D. (1980) Immunofluorescent detection of double-stranded RNA in cells infected with reovirus, infectious pancreatic necrosis virus, and infectious bursal disease virus. Canadian Journal of Microbiology 26: 256261CrossRefGoogle ScholarPubMed
MacDonald, R. D. and Dobos, P. (1981) Identification of the proteins encoded by each genome segment of infectious pancreatic necrosis virus. Virology 114: 414422CrossRefGoogle ScholarPubMed
Marquardt, W. W., Johnson, R. B., Odenwald, W. F. and Schlotthober, B. A. (1980) An indirect enzyme-linked immunosorbent assay (ELISA) for measuring antibodies in chickens infected with infectious bursal disease virus. Avian Diseases 24: 375385CrossRefGoogle ScholarPubMed
Mazariegos, L. A., Lukert, P. D. and Brown, J. (1990) Pathogenicity and immunosuppressive properties of infectious bursal disease ‘intermediate’ strains. Avian Diseases 34: 203208CrossRefGoogle ScholarPubMed
McFerran, J. B. (1993) Infectious bursal disease. In: Virus Infections of Birds (Eds McFerran, J. B. and McNulty, M. S.), Elsevier Science Publishers, Amsterdam, pp. 213228Google Scholar
McFerran, J. B., Clarke, J. K. and Curran, W. L. (1971) The application of negative contrast electron microscopy to routine veterinary virus diagnosis. Research in Veterinary Science 12: 253257CrossRefGoogle ScholarPubMed
McFerran, J. B., McNulty, M. S., McKillop, E. R., Connor, T. J., McCracken, R. M., Collins, D. S. et al. (1980) Isolation and serological studies with infectious bursal disease viruses from fowl, turkeys, and ducks: demonstration of a second serotype. Avian Pathology 9: 395404CrossRefGoogle ScholarPubMed
McIlroy, S. G., Goodall, E. A., Bruce, D. W., McCracken, R. M. and McNulty, M. S. (1992) The cost benefit of vaccinating broiler flocks against subclinical infectious bursal disease. Avian Pathology 21: 6567CrossRefGoogle ScholarPubMed
McIlroy, S. G., Goodall, E. A. and McCracken, R. M. (1989) Economic effects of subclinical infectious bursal disease on broiler production. Avian Pathology 18: 465480CrossRefGoogle ScholarPubMed
McNulty, M. S. (1993) Recurrent and emerging diseases. Proceedings of the Xth World Veterinary Poultry Association Congress,Sydney, Australia, pp. 3–17Google Scholar
McNulty, M. S., Allan, G. M. and McFerran, J. B. (1979) Isolation of infectious bursal disease virus from turkeys. Avian Pathology 8: 205212CrossRefGoogle ScholarPubMed
McNulty, M. S. and Saif, Y. M. (1988) Antigenic relationship of non-serotype 1 turkey infectious bursal disease viruses. Avian Diseases 32: 374375CrossRefGoogle ScholarPubMed
Mandelli, G., Lodetti, E., Rinaldi, A. and Cervio, G. (1972) Caratteristiche colturali, citoligiche ed ultramicroscopiche di un ceppo di virus della malattia di gumboro (IBA I/PV). Folia Veterinaria Latina 2: 399425Google Scholar
Melchior, F. W. and Melson, L. (1989) Attenuated infectious bursal disease virus strain and vaccine derived therefrom. US Patent 4,824, 668Google Scholar
Meroz, M. (1966) An epidemiological survey of gumboro disease. Refuah Veterinarian 23: 227235Google Scholar
Meulemans, G., Windvogel, H., Halen, P. and Schyns, P. (1974) Maladie de gumboro: Isolement, identification et incidence du virus en Belgique. Annales de Médecine Vétérinaire 118: 265271Google Scholar
Montgomery, R. D., Boyle, C. R. and Maslin, W. R. (1991) Influence of antigen concentration, inoculation interval, number of exposures, type of housing and placement concentration on the tear antibody response to Brucella abortus in chickens. Avian Diseases 35: 606614CrossRefGoogle ScholarPubMed
Montgomery, R. D. and Maslin, W. R. (1991) Effect of infectious bursal disease virus vaccines on persistence and pathogenicity of modified live reovirus vaccines in chickens. Avian Diseases 35: 147157CrossRefGoogle ScholarPubMed
Moradian, J., Thorsen, J. and Julian, R. J. (1990) Single and combined infections of specific-pathogen-free chickens with infectious bursal disease virus and an intestinal isolate of reovirus. Avian Diseases 34: 6372CrossRefGoogle Scholar
Morales, O. E. and Boclair, W. (1993) Morphometric relations bursa/spleen in infectious bursal disease. Proceedings of the 42nd Western Poultry Disease Conference,Sacramento, California pp. 91–92Google Scholar
Moulthrop, I. M. (1966) Infectious bursal disease (gumboro). Proceedings of the United States Livestock Sanitary Association, Buffalo, New York, pp. 438439Google Scholar
Müller, H. (1986) Replication of infectious bursal disease virus in lymphoid cell. Archives of Virology 87: 191203CrossRefGoogle Scholar
Müller, H., Scholtissek, C. and Becht, H. (1979) The genome of infectious bursal disease virus consists of two segments of double-stranded RNA. Journal of Virology 31: 584589CrossRefGoogle ScholarPubMed
Muskett, J. C., Hopkins, I. G., Edwards, K. R. and Thornton, D. H., (1979) Comparison of two infectious bursal disease vaccine strains: efficacy and potential hazards in susceptible and maternally immune birds. Veterinary Record 104: 332334CrossRefGoogle ScholarPubMed
Nakamura, K., Yuasa, N., Abe, H. and Narita, M. (1990) Effect of infectious bursal disease virus on infections produced by Escherichia coli of high and low virulence in chickens. Avian Pathology 19: 713721CrossRefGoogle ScholarPubMed
Nakamura, T., Otaki, Y. and Nunoya, T. (1992) Immunosuppressive effect of a highly virulent infectious bursal disease virus isolated in Japan. Avian Diseases 36: 891896CrossRefGoogle ScholarPubMed
Naqi, S. A., Marquez, B. and Sahin, N. (1983) Maternal antibody and its effect on infectious bursal disease immunization. Avian Diseases 27: 623631CrossRefGoogle ScholarPubMed
Naqi, S. A., Millar, D. L. and Grumbles, L. C. (1980) An evaluation of three commercially available infectious bursal disease vaccines. Avian Diseases 24: 233240CrossRefGoogle Scholar
Narita, M., Umiji, S., Furuta, K., Shirai, J. and Nakamura, K. (1991) Pathogenicity of avian nephritis virus in chicks previously infected with infectious bursal disease virus. Avian Pathology 20: 101111CrossRefGoogle ScholarPubMed
Nawathe, D. R., Onunkwo, O. and Smith, I. M. (1978) Serological evidence of infection with the virus of infectious bursal disease in wild and domestic birds in Nigeria. Veterinary Record 102: 444CrossRefGoogle ScholarPubMed
Nick, H., Cursiefen, D. and Becht, H. (1976) Structural and growth characteristics of infectious bursal disease virus. Journal of Virology 18: 227234CrossRefGoogle ScholarPubMed
Nunoya, T., Otaki, Y., Tajima, M., Hiraga, M. and Saito, T. (1992) Occurrence of acute infectious bursal disease with high mortality in Japan and pathogenicity of field isolates in specific-pathogen-free chickens. Avian Diseases 36: 597609CrossRefGoogle ScholarPubMed
O'Brien, J. D. P. (1976) Infectious bursal disease of chickens and vaccination. Veterinary Record 99: 260 (letter)CrossRefGoogle ScholarPubMed
Okoye, J. O. A., Okeke, C. N. and Ezeobele, F. K. O. (1991) Effect of infectious bursal disease virus infection on the severity of Aspergillus flavus aspergillosis of chickens. Avian Pathology 20: 167171CrossRefGoogle ScholarPubMed
Okoye, J. O. A. and Uzoukwu, M. (1990) Pathogenesis of infectious bursal disease in embryonally bursectomised chickens. Avian Pathology 19: 555569CrossRefGoogle ScholarPubMed
Palya, V. (1991) Preparation and control of gumboro disease vaccine. In: Manual for the production of Marek's disease, gumboro disease, and inactivated Newcastle disease vaccine. FAO Animal Production and Health Paper 89, Food and Agriculture Organization, Rome, pp. 4762Google Scholar
Parkhurst, R. T. (1964) On-the-farm studies of gumboro disease in broilers. Avian Diseases 8: 584596CrossRefGoogle Scholar
Pejkovski, C., Davelaar, F. G. and Kouwenhoven, B. (1979) Immunosuppressive effect of infectious bursal disease virus on vaccination against infectious bronchitis. Avian Pathology 8: 95106CrossRefGoogle ScholarPubMed
Petek, M., D'Aprile, N. and Cancellotti, F. (1973) Biological and physico-chemical properties of the infectious bursal disease virus (IBDV) Avian Pathology 2: 135152Google ScholarPubMed
Petek, M. and Mandelli, G. (1968) Proprieta biologiche di un reovirus isolato du un focolaio di malattia gumboro. Atti Societa Italia Scienta Veterinaria 22: 875879Google Scholar
Rinaldi, A., Cossi, D., Cervio, G. and Lodetti, E. (1972) Attenuazione del virus della malattia di gumboro eprove di vaccinazione in laboratorio e in practica. Nuova Veterinaria 48: 216223Google Scholar
Rosales, A. G., Villegas, P., Lukert, P. D., Fletcher, O. J., Mohamed, M. A. and Brown, J. (1989) Isolation, identification, and pathogenicity of two field strains of infectious bursal disease virus. Avian Diseases 33: 3541CrossRefGoogle ScholarPubMed
Rosenberger, J. K. (1989) Infectious bursal disease. In: Isolation and Identification of Avian Pathogens, 3rd edn (Eds Purchase, H. G., Arp, L. H., Domermuth, C. H. and Pearson, J. E.), Kendall/Hunt Publishing Company, Dubuque, Iowa, pp. 165166Google Scholar
Rosenberger, J. K. and Cloud, S. S. (1986) Isolation and characterization of variant infectious bursal disease viruses. Journal American Veterinary Medical Association 189: 357 (abstract)Google Scholar
Rosenberger, J. K. and Cloud, S. S. (1989) The effects of age, route of exposure and coinfection with infectious bursal disease viron on the pathogenicity and transmissability of chicken anemia agent (CAA), Avian Diseases 33: 753759CrossRefGoogle Scholar
Rosenberger, J. K. and Gelb, J. (1976) Immunosuppressive effects of the infectious bursal agent and relationships to other poultry diseases. Proceedings of the 80th Meeting of the United States Animal Health Association, Miami Beach, Florida pp. 283289Google Scholar
Rosenberger, J. K. and Gelb, J. (1978) Response to several avian respiratory viruses as affected by infectious bursal disease virus. Avian Diseases 22: 95105CrossRefGoogle ScholarPubMed
Rosenberger, J. K., Cloud, S. S., Gelb, J., Odor, E. and Dohms, S. E. (1985) Sentinel bird survey of Delmarva broiler flocks. Proceedings of the 20th National Meeting on Poultry Health and Condemnations, Ocean City, Maryland, pp. 94101Google Scholar
Rosenberger, J. K., Cloud, S. S. and Metz, A. (1987) Use of infectious bursal disease virus variant vaccines in broilers and broiler breeders. Proceedings of the 36th Western Poultry Disease Conference,Davis, California pp. 105–109Google Scholar
Rosenberger, J. K., Klopp, S., Eckroade, R. J. and Krauss, W. C. (1975) The role of the infectious bursal agent and several avian adenoviruses in the hemorrhagic-aplastic-anemia syndrome and gangrenous dermatitis. Avian Diseases 19: 717729CrossRefGoogle Scholar
Saif, Y. M., Jackwood, D. H., Jackwood, M. W. and Jackwood, D. J. (1986) Antigenic characteristics of infectious bursal disease virus. Proceedings of the 58th North Eastern Conference on Avian Diseases,Newark, Delaware (abstract)CrossRefGoogle Scholar
Sharma, J. M., Dohms, J. E. and Metz, A. L. (1989) Comparative pathogenesis of serotype 1 and variant serotype 1 isolates of infectious bursal disease virus and their effect on humoral and cellular immune competence of specific-pathogen-free chickens. Avian Diseases 33: 112124CrossRefGoogle ScholarPubMed
Sivanandan, V. and Maheswaran, S. K. (1980) Immune profile of infectious bursal disease: I. Effect of infectious bursal disease virus on peripheral blood T&B lymphocytes of chickens. Avian Diseases 24: 715725CrossRefGoogle Scholar
Sivanandan, V., Sasipreeyajan, J., Halvorson, D. A. and Newman, J. A. (1986) Histopathological changes induced by serotype II infectious bursal disease virus in specific-pathogen-free chickens. Avian Diseases 30: 709715CrossRefGoogle ScholarPubMed
Skeeles, J. K., Lukert, P. D., DeBuysscher, E. V., Fletcher, O. J. and Brown, J. (1979a) Infectious bursal disease viral infections. Complement and virus neutralizing antibody response following infection of susceptible chickens. Avian Diseases 23: 95106CrossRefGoogle ScholarPubMed
Skeeles, J. K., Lukert, P., Fletcher, O. J. and Leonard, J. D. (1979b) Immunization studies with a cell-culture adapted infectious bursal disease virus. Avian Diseases 23: 456465CrossRefGoogle Scholar
Snedeker, C., Wills, F. K. and Moulthrop, I. M. (1967) Some studies on the infectious bursal agent. Avian Diseases 11: 519528CrossRefGoogle ScholarPubMed
Snyder, D. B. (1990) Changes in the field status of infectious bursal disease virus. Guest Editorial. Avian Pathology 19: 419423CrossRefGoogle Scholar
Snyder, D. B. and Vakharia, V. N. (1993) A recombinant baculovirus expressing infectious bursal disease virus antigens provides active and passive cross-protection of chickens. Proceedings of the 130th Annual Meeting of the American Veterinary Medical Association,Minneapolis, Minnesota p. 151 (abstract)Google Scholar
Snyder, D. B., Lana, D. P., Savage, P. K., Yancey, F. S., Mengel, S. A. and Marquard, W. W. (1988) Differentiation of infectious bursal disease viruses directly from infected tissues with neutralizing monoclonal antibodies. Evidence of a major antigenic shift in recent field isolates. Avian Diseases 32: 535539CrossRefGoogle Scholar
Snyder, D. B., Marquard, W. W., Mallinson, E. T., Russek-Cohn, E., Savage, P. K. and Allen, D. C. (1986) Rapid serological profiling by enzyme-linked immunosorbent assay. IV. Association of infectious bursal disease serology with broiler flock performance. Avian Diseases 30: 139148CrossRefGoogle ScholarPubMed
Snyder, D., Savage, P. K., Yancey, F. S., Mengel, S. A. and Marquardt, W. W. (1989) Update on GLS research. Proceedings of the 24th National Meeting on Poultry Health and Condemnations, Ocean City, Maryland pp. 161166Google Scholar
Spies, U., Müller, H. and Becht, H. (1987) Properties of RNA polymerase activity associated with infectious bursal disease virus and characterization of its reaction products. Virus Research 8: 127140CrossRefGoogle ScholarPubMed
Springer, W. T., Olson, N. O., Kerr, K. M. and Fabacher, C. J. (1983) Responses of specific-pathogen-free chicks to concomitant infections of reovirus (WVU-2937) and infectious bursal disease virus. Avian Diseases 27: 911917CrossRefGoogle ScholarPubMed
Thayer, S. G. (1980) Studies of cloned infectious bursal disease virus applied as a vaccine. MS Thesis, University of Georgia, Athens, GeorgiaGoogle Scholar
Thayer, S. G., Villegas, P. and Fletcher, O. J. (1987) Comparison of two commercial enzymelinked immunosorbent assays and conventional methods for avian serology. Avian Diseases 31: 120124CrossRefGoogle ScholarPubMed
Thornton, D. H. and Pattison, M. (1975) Comparison of vaccines against infectious bursal disease. Journal of Comparative Pathology 85: 597610CrossRefGoogle ScholarPubMed
Todd, D. and McNulty, M. S. (1979) Biochemical studies with infectious bursal disease virus: comparison of some of its properties with infectious pancreatic necrosis virus. Archives of Virology 60: 265277CrossRefGoogle ScholarPubMed
Van den Berg, T. P., Gonze, M. and Meulemans, G. (1991) Acute infectious bursal disease in poultry: isolation and characterization of a highly virulent strain. Avian Pathology 20: 133143CrossRefGoogle Scholar
van den Berg, T. P. and Meulemans, G. (1991) Acute infectious bursal disease in poultry: protection afforded by maternally derived antibodies and interference with live vaccination. Avian Pathology 20: 409421CrossRefGoogle Scholar
Vindevogel, H., Gouffaux, M., Meulemans, G., Duchatal, J. P. and Halen, P. (1976) Maladie de gumboro: distribution et persistance du virus chez le poussin inocule. Etudes sur la transmission de la maladie. Avian Pathology 5: 3138CrossRefGoogle Scholar
Wagner, K. and Kösters, J. (1968) Serological studies on infectious bursitis in chickens (gumboro disease) Berliner-Munchener Tierärztliche Wochenschrift 81: 464Google Scholar
Weisman, J. and Hitchner, S. B. (1978) Virus-neutralization versus agar-gel pricipitin tests for detecting serological response to infectious bursal disease virus. Avian Diseases 22: 598603CrossRefGoogle Scholar
Whitfill, C. E., Ricks, C. A., Haddad, E. E., Andrews, P. A., Skeeles, J. K. and Thoma, J. A. (1992) An infectious bursal disease (IBD) vaccine for day 18 in ovo administration in chickens. Proceedings of the 19th World's Poultry Congress, Amsterdam, The Netherlands Vol 1, pp. 453455Google Scholar
Winterfield, R. W. (1969) Immunity response to the infectious bursal agent. Avian Diseases 13: 548557CrossRefGoogle Scholar
Winterfield, R. W. and Hitchner, S. B. (1962) Etiology of an infectious nephritis-nephrosis syndrome of chickens. American Journal of Veterinary Research 23: 12731279Google ScholarPubMed
Winterfield, R. W. and Thacker, H. L. (1978) Immune response and pathogenicity of different strains of infectious bursal disease virus applied as vaccines. Avian Diseases 22: 721731CrossRefGoogle ScholarPubMed
Winterfield, R. W., Fadley, A. M. and Bickford, A. (1972) Infectivity and distribution of infectious bursal disease virus in the chicken. Persistence of the virus and lesions. Avian Diseases 16: 622632CrossRefGoogle ScholarPubMed
Winterfield, R. W., Hitchner, S. B., Appleton, G. S. and Cosgrove, A. S. (1962) Avian nephrosis, nephritis and gumboro disease. L & M. News and Views 3: 103Google Scholar
Wood, G. W., Drury, S. E. N., Hourigan, B. M. E., Musket, J. C., Thornton, D. H. and Fahey, K. J. (1988) Antibody to the Australian 002–73 strain of infectious bursal disease virus neutralises and protects against European IBD virus strains. Australian Veterinary Journal 65: 9495CrossRefGoogle Scholar
Wyeth, P. J. (1975) Effect of infectious bursal disease on the response of chickens to S. typhimurium and E. coli infections. Veterinary Record 96: 238243CrossRefGoogle Scholar
Wyeth, P. J. (1979) Gumboro vaccination to go oil-based? Poultry World 3 May, pp. 16 and 27Google Scholar
Wyeth, P. J. and Chettle, N. (1982) Comparison of the efficacy of four inactivated infectious bursal disease oil emulsion vaccines. Veterinary Record 110: 359361CrossRefGoogle ScholarPubMed
Wyeth, P. J. and Chettle, N. J. (1990) Use of infectious bursal disease vaccines in chicks with maternally derived antibodies. Veterinary Record 126: 577578Google ScholarPubMed
Wyeth, P. J. and Cullen, G. A. (1976) Maternally derived antibody-effect on susceptibility of chicks to infectious bursal disease. Avian Pathology 5: 253260CrossRefGoogle ScholarPubMed
Wyeth, P. J. and Cullen, G. A. (1978a) Transmission of immunity from inactivated infectious bursal disease oil-emulsion vaccinated parent chickens to their chicks. Veterinary Record 102: 362363CrossRefGoogle ScholarPubMed
Wyeth, P. J. and Cullen, G. A. (1978b) Susceptibility of chicks to infectious bursal disease (IBD) following vaccination of their parents with live IBD vaccine. Veterinary Record 103: 281282CrossRefGoogle ScholarPubMed
Wyeth, P. J. and Cullen, G. A. (1979) The use of an inactivated infectious bursal disease oil emulsion vaccine in commercial broiler parent chickens. Veterinary Record 104: 188193CrossRefGoogle ScholarPubMed
Wyeth, P. J., O'brien, J. D. P. and Cullen, G. A. (1981) Improved performance of progeny of broiler parent chicks vaccinated with infectious bursal disease oil-emulsion vaccine. Avian Diseases 25: 228241CrossRefGoogle ScholarPubMed
Yamada, S., Matsuo, K. and Uchinuno, Y. (1982) Susceptibility of ducks and duck-origin cell cultures to infectious bursal disease virus. Avian Diseases 26: 596601CrossRefGoogle ScholarPubMed
Yamaguchi, S., Imada, T. and Kawamura, H. (1981) Growth and infectivity titration of virulent infectious bursal disease virus in established cell lines from lymphoid leukosis tumors. Avian Diseases 25: 927935CrossRefGoogle ScholarPubMed
Yuasa, N., Taniguchi, T., Noguchi, T. and Yoshida, I. (1980) Effect of infectious bursal disease virus infection on incidence of anemia by chicken anemia agent. Avian Diseases 24: 202209CrossRefGoogle Scholar
Zander, D. V. and Malinson, E. T. (1991) Principles of disease prevention, diagnosis and control. In: Diseases of Poultry, 9th edn, (Eds Calnek, B. W., Barnes, H. J., Beard, C. W., Reid, W. M. and Yoder, H. W.), Iowa State University Press, Ames, Iowa, pp. 344Google Scholar