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LaSota vaccine for Newcastle disease: observations from India on its adverse effects due to complicating pathogens

Published online by Cambridge University Press:  05 September 2008

J.L. VEGAD ,
S. BHINDWALE ,
B. MISHRA  and
R. SHARMA
J.L. VEGAD*
Affiliation:
Central Disease Diagnostic Laboratory, Phoenix Group, 201/15, Ratan Colony, Jabalpur – 482001, India
S. BHINDWALE
Affiliation:
Central Disease Diagnostic Laboratory, Phoenix Group, 201/15, Ratan Colony, Jabalpur – 482001, India
B. MISHRA
Affiliation:
Central Disease Diagnostic Laboratory, Phoenix Group, 201/15, Ratan Colony, Jabalpur – 482001, India
R. SHARMA
Affiliation:
Central Disease Diagnostic Laboratory, Phoenix Group, 201/15, Ratan Colony, Jabalpur – 482001, India
*
Corresponding author: amitvegad@hotmail.com
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Abstract

These observations report on the outbreak of mild to moderate Newcastle disease following LaSota vaccination at many commercial poultry layer farms in India. It is believed that this happened due to the presence of complicating pathogens in the birds, mainly mildly pathogenic avian influenza viruses (MPAI) and infectious bronchitis virus (IBV). Of the two, the principal role appeared to be that of MPAI. The reasons for the precipitation of Newcastle disease are discussed. In such cases, administration of cloned vaccine both live and killed yielded remarkable results and prevented losses. In time, the birds fully recovered. It is suggested that high titres following live and killed cloned vaccine against Newcastle disease may also protect the birds against MPAI.

Keywords

LaSota vaccinecomplicating pathogenscloned vaccine
Type
Small-Scale Family Poultry Production
Information
World's Poultry Science Journal , Volume 64 , Issue 3 , September 2008 , pp. 401 - 404
Copyright
Copyright © World's Poultry Science Association 2008

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References

ALEXANDER, D.J. (2003) Newcastle disease. In: SAIF, Y.M., BARNES, H.J., GLISSON, J.R., FADLY, A.M., McDOUGALD, L.R., & SWAYNE, D.E. (Eds) Diseases of Poultry. 11th Ed. pp. 64-87 (Ames, Iowa State University Press).Google Scholar
CAVANAGH, D. (2007) Coronavirus avian infectious bronchitis virus. Veterinary Research 38: 281-297CrossRefGoogle ScholarPubMed
CAVANAGH, D. and NAQI, S.A. (2003) Infectious bronchitis. In: SAIF, Y.M., BARNES, H.J., GLISSON, J.R., FADLY, A.M., McDOUGALD, L.R., & SWAYNE, D.E. (Eds) Diseases of Poultry. 11th Ed. pp. 101-119 (Ames, Iowa State University Press).Google Scholar
SWAYNE, D.E. and HALVORSON, D.A. (2003) Influenza. In: SAIF, Y.M., BARNES, H.J., GLISSON, J.R., FADLY, A.M., McDOUGALD, L.R., & SWAYNE, D.E. (Eds) Diseases of Poultry. 11th Ed. pp. 135-160 (Ames, Iowa State University Press).Google Scholar
VEGAD, J.L. (2008) Avian Influenza. In: VEGAD, J.L.’S Poultry Diseases: A Guide for Farmers and Poultry Professionals. Second Revised and Enlarged Edition pp. 42-64. (International Book Distributing Co., Lucknow- 226001, India).Google Scholar