Pathology of Fatal West Nile Virus Infections in Native and Exotic Birds during the 1999 Outbreak in New York City, New York

doi:10.1354/vp.37-3-208

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Pathology of Fatal West Nile Virus Infections in Native and Exotic Birds during the 1999 Outbreak in New York City, New York

K. E. Steele, M. J. Linn, R. J. Schoepp, N. Komar, T. W. Geisbert, R. M. Manduca, P. P. Calle, B. L. Raphael, T. L. Clippinger, T. Larsen, J. Smith, R. S. Lanciotti, N. A. Panella and T. S. McNamara

Divisions of Pathology (KES, RJS, TWG, TL) and Virology (JS), US Army Medical Research Institute of Infectious Diseases, Ft. Detrick, MD; Departments of Pathology (MJL, RMM, TSM) and Clinical Sciences (PPC, BLR, TLC), Wildlife Conservation Society, Bronx, NY; and Arbovirus Diseases Branch, Division of Vector-borne Infectious Diseases, National Center for Infectious Diseases, Centers for Disease Control and Prevention, Fort Collins, CO (NK, RSL, NAP)

West Nile fever caused fatal disease in humans, horses, andbirds in the northeastern United States during 1999. We studiedbirds from two wildlife facilities in New York City, New York,that died or were euthanatized and were suspected to have WestNile virus infections. Using standard histologic and ultrastructuralmethods, virus isolation, immunohistochemistry, in situ hybridizationand reverse-transcriptase polymerase chain reaction, we identifiedWest Nile virus as the cause of clinical disease, severe pathologicchanges, and death in 27 birds representing eight orders and14 species. Virus was detected in 23/26 brains (88%), 24/25hearts (96%), 15/18 spleens (83%), 14/20 livers (70%), 20/20kidneys (100%), 10/13 adrenals (77%), 13/14 intestines (93%),10/12 pancreata (83%), 5/12 lungs (42%), and 4/8 ovaries (50%)by one or more methods. Cellular targets included neurons andglial cells in the brain, spinal cord, and peripheral ganglia;myocardial fibers; macrophages and blood monocytes; renal tubularepithelium; adrenal cortical cells; pancreatic acinar cellsand islet cells; intestinal crypt epithelium; oocytes; and fibroblastsand smooth muscle cells. Purkinje cells were especially targeted,except in crows and magpies. Gross hemorrhage of the brain,splenomegaly, meningoencephalitis, and myocarditis were themost prominent lesions. Immunohistochemistry was an efficientand reliable method for identifying infected cases, but thepolyclonal antibody cross-reacted with St. Louis encephalitisvirus and other flaviviruses. In contrast, the in situ hybridizationprobe pWNV-E (WN-USAMRIID99) reacted only with West Nile virus.These methods should aid diagnosticians faced with the emergenceof West Nile virus in the United States.

Key words: Arbovirus; avian; immunohistochemistry; in situ hybridization; meningoencephalitis; myocarditis; RT-PCR; virus isolation; West Nile virus.

Request reprints from Dr. Tracey McNamara, Department of Pathology, Wildlife Conservation Society, 2300 Southern Blvd., Bronx, NY 10460 (USA).

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