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Poultry Viruses and Possibilities of Their Transmission to Man

Published online by Cambridge University Press:  18 September 2007

B. Klimeš
B. Klimeš
Affiliation:
Department of Poultry Diseases, University of Veterinary Medicine, Brno, Czechoslovakia
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Abstract

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Type
Research Article
Information
World's Poultry Science Journal , Volume 26 , Issue 2 , April 1970 , pp. 539 - 545
Copyright
Copyright © Cambridge University Press 1970

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References

Bankowski, R. A., Conrad, R. D. (1966). A new respiratory disease of turkeys caused by virus. Proceedings of 13th World's Poultry Congress, Kijev, 371379.Google Scholar
Bankowski, R. A., Conrad, R. D. and Reynolds, B. (1968). Avian influenza A and paramyxo-viruses complicating respiratory disease diagnosis in poultry. Avian Diseases, 12: 260278.CrossRefGoogle ScholarPubMed
Becker, W. B., McIntosh, K., Dees, J. H. and Chanock, R. M. (1967). Morphogenesis of avian infectious bronchitis virus and related human virus (strain 229E). J. Virology, 1, 10191027.CrossRefGoogle ScholarPubMed
Brant, A. W., Sadler, W. W., Lewis, H. (1967). The influence of disease on sensory properties of poultry meat. Food Technology, 21, 289309.Google Scholar
Burnet, F. M. (1943). Human infection with the virus of Newcastle disease of fowls. Med. J. Australia, 2, 313314.CrossRefGoogle Scholar
Canock, R. M., Coates, H. V. (1964). Myxoviruses—A comparative description. In Hanson R.P. Newcastle disease virus. The University of Wisconsin Press, pp. 279298.Google Scholar
Černik, K., Cernikova, E. (1967). Vliv teploty na hemaglutacni aktivitu a infekciozitu nekterých kmenu viru newcastleské nemoci. Veterinárnl Medicina, 12, 8392.Google Scholar
Davenport, F. M., Hennessy, A. V. and Minuse, E. (1968). The age distribution in humans of hemagglutinating antibodies reacting with avian strains of influenza A virus. J. Immunology, 100, 581585.CrossRefGoogle ScholarPubMed
Davis, O. S. (1962). Pathological findings in mammals inoculated with avian visceral lymphamatosis tumor triturates. Proceedings 12th World's Poultry Congress, 309314.Google Scholar
DeLay, P. D., Casey, H. L. and Tubiash, H. S. (1967). Comparative study of fowl plague virus and virus isolated from man. Public Health Reports, 82, 615620.CrossRefGoogle ScholarPubMed
Deshmukh, D. R., Sayed, H. I. and Pomeroy, B. S. (1969). Avian Reoviruses. IV Relationship to Human Reoviruses. Avian Diseases, 13, 1622.CrossRefGoogle ScholarPubMed
Dinter, Z. (1964). Avian myxoviruses. In Hanson R.P. Newcastle disease virus. The University of Wisconsin Press, pp. 279298.Google Scholar
Doherty, P. C. (1967). Occurrence of avian infectious bronchitis virus in the tissues of experimentally infected chickens. Queensl. J. Agric. and Anim. Sci., 24, 7580.Google Scholar
Hanson, L. E., Rhoades, H. E., Schricker, R. L. (1964). Properties of duck hepatitis virus. Avian Diseases, 8, 196202.CrossRefGoogle Scholar
Herrman, J. E. and Oliver, D. O. (1968). Food-borne virus: Detection in a model system. Appl. Microbiol., 16, 595602.CrossRefGoogle Scholar
Jordan, F. T. W., Evanson, H. M. and Bennett, J. M. (1967). The survival of the virus of infectious laryngotracheitis. Zbl. Vet. Med., B, 14, 135150.CrossRefGoogle ScholarPubMed
Kaplan, M. M., Payne, A. M. (1959). Serological survey in animals for type A influenza in relation to the 1957 pandemic. Bull. World's Health Organisation, 20, 465488.Google Scholar
Kraus, H. (1968). Bedautung der Struktur für die Einordung der Geflügel Viren. Deutsche tierärtzliche Wochenschrift, 75, 209217.Google Scholar
Melnick, J. L. and McCombs, R. M. (1966). Classification and nomenclature of animal viruses 1966. Progr. med. Virol., 8, 400409.Google ScholarPubMed
Melnick, J. L. (1967). Editorial note and summary of classification of animal viruses, 1967. Progr. med. Virol., 9, 4834–85.Google ScholarPubMed
Melnick, J. L. (1969). Summary of classification of animal viruses, 1969. Progr. med. Virol., 11, 451453.Google ScholarPubMed
Nagy, Z. and Derzay, D. (1968). A viral disease of goslings. II. Microscopic lesions. Acta Vet. Acad. Sci. Hungaricae, 18, 318.Google ScholarPubMed
Pereira, H. G., Tumova, B., Webster, R. G. (1967). Antigenic relationship between influenza A viruses of human and avian origins. Nature, 215, 982983.CrossRefGoogle ScholarPubMed
Petek, M., Felluga, B. and Zolette, R. (1963). Biological properties of CELO virus: Stability to various agents, and electron microscopic study. Avian Diseases, 7, 3839.CrossRefGoogle ScholarPubMed
Piraine, F., Krumbiegel, E. R. and Wisniwski, H. J. (1966). Serologic survey of man for avian leukosis virus infection. J. Immunology, 98, 702706.CrossRefGoogle Scholar
Rasmussen, A. F. Jr. (1964). Avian myxoviruses and man. In Hanson R.P. Newcastle disease virus. The University of Wisconsin Press, pp. 313325.Google Scholar
Solomon, J. J., Purchase, H. G., Burmester, B. R. (1969). A search for avian leucosis virus and antiviral activity in the blood of leukemic and nonleucemic adults and children. Jour. of Natl. Cancer Inst., 42, 2933.Google Scholar
Vrtiak, O. J. and Kapitančik, B. (1967). Study of fowl plague virus resistence in biological and technical material. Bull. Off. int. Epiz., 67, 969988.Google ScholarPubMed
Wagner, K. and Kösters, J. (1965). Zur Epidemiologic des Parainfluenza II-Virus der Hühner. Deutsche dierärtztliche Wochenschrift, 72, 486488.Google Scholar