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Vector-Borne and Zoonotic Diseases
Q Fever in Humans and Animals in the United States
To cite this article:
Jennifer H. McQuiston, James E. Childs.
Vector-Borne and Zoonotic Diseases.
September 2002,
2(3): 179-191.
doi:10.1089/15303660260613747.
Jennifer H. McQuiston Viral and Rickettsial Zoonoses Branch, Division of Viral and Rickettsial Diseases, National Center for Infectious Diseases, Centers for Disease Control and Prevention, Atlanta, Georgia. James E. Childs Viral and Rickettsial Zoonoses Branch, Division of Viral and Rickettsial Diseases, National Center for Infectious Diseases, Centers for Disease Control and Prevention, Atlanta, Georgia. Coxiella burnetii, the etiologic agent of Q fever, is a worldwide zoonotic pathogen. Although Q fever is present in the United States, little is known about its current incidence or geographic distribution in either humans or animals. Published reports of national disease surveillance, individual cases, outbreak investigations, and serologic surveys were reviewed to better characterize Q fever epidemiology in the United States. In national disease surveillance reports for 1948-1986, 1,396 human cases were reported from almost every state. Among published individual case reports and outbreak investigations, occupational exposures (research facilities, farm environments, slaughterhouses) were commonly reported, and sheep were most frequently implicated as a possible source of infection. In studies conducted on specific groups, livestock handlers had a significantly higher prevalence of antibodies to C. burnetii than did persons with no known risk. Animal studies showed wide variation in seroprevalence, with goats having a significantly higher average seroprevalence (41.6%) than sheep (16.5%) or cattle (3.4%). Evidence of antibody to C. burnetii was reported among various wild-animal species, including coyotes, foxes, rodents, skunks, raccoons, rabbits, deer, and birds. This literature review suggests that C. burnetii is enzootic among ruminants and wild animals throughout much of the United States and that there is widespread human exposure to this pathogen. Sheep and goats appear to be a more important risk for human infection in the United States than cattle or wild animals, and research studies examining the natural history and transmission risk of Q fever in sheep and goats in this country should be encouraged.  This paper was cited by:Coxiella burnetii (Q fever) seroprevalence in cattle C. McCAUGHEY, L. J. MURRAY, J. P. McKENNA, F. D. MENZIES, S. J. McCULLOUGH, H. J. O'NEILL, D. E. WYATT, C. R. CARDWELL, P. V. COYLE Epidemiology and Infection. Jul 2009: 1 CrossRef The serological prevalence of
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antibodies in sheep and goats in northern Greece M. Pape, E. G. Bouzalas, G. S. Koptopoulos, K. Mandraveli, M. Arvanitidou-Vagiona, P. Nikolaidis, St. Alexiou-Daniel Clinical Microbiology and Infection. Jun 2009 CrossRef Q Fever during Pregnancy Xavier Carcopino, Didier Raoult, Florence Bretelle, Léon Boubli, Andreas Stein Annals of the New York Academy of Sciences. Jun 2009, Vol. 1166, No. 1: 79-89 CrossRef Compendium of Veterinary Standard Precautions for Zoonotic Disease Prevention in Veterinary Personnel Brigid L. Elchos, Joni M. Scheftel, Bryan Cherry, Emilio E. DeBess, Sharon G. Hopkins, Jay F. Levine, Carl J. Williams Journal of the American Veterinary Medical Association. Sep 2008, Vol. 233, No. 3: 415-432 CrossRef Q Fever Endocarditis: The Mayo Clinic Experience JEREMY W. SCOTT, LARRY M. BADDOUR, IMAD M. TLEYJEH, SHERIF MOUSTAFA, YIN GUANG SUN, FAROUK MOOKADAM The American Journal of the Medical Sciences. Aug 2008, Vol. 336, No. 1: 53-57 CrossRef Epidemiological features of Mediterranean spotted fever, murine typhus, and Q fever in Split-Dalmatia County (Croatia), 1982–2002 V. PUNDA-POLIĆ, B. LUKŠIĆ, V. ČAPKUN Epidemiology and Infection. Aug 2008, Vol. 136, No. 07 CrossRef Infection control practices and zoonotic disease risks among veterinarians in the United States Jennifer G. Wright, Sherry Jung, Robert C. Holman, Nina N. Marano, Jennifer H. McQuiston Journal of the American Veterinary Medical Association. Jul 2008, Vol. 232, No. 12: 1863-1872 CrossRef Association between Coxiella burnetii shedding in milk and subclinical mastitis in dairy cattle John Barlow, Brad Rauch, Frank Welcome, Sung Guk Kim, Edward Dubovi, Ynte Schukken Veterinary Research. Jun 2008, Vol. 39, No. 3: 1 CrossRef Managing Q Fever during Pregnancy: The Benefits of Long‐Term Cotrimoxazole Therapy Xavier Carcopino, Didier Raoult, Florence Bretelle, Leon Boubli, Andreas Stein Clinical Infectious Diseases. Oct 2007, Vol. 45, No. 5: 548-555 CrossRef Outbreak of Q Fever Associated with a Horse-Boarding Ranch, Colorado, 2005 Wendy M. Bamberg, W. John Pape, James L. Beebe, Christine Nevin-Woods, William Ray, Hugh Maguire, Justin Nucci, Robert F. Massung, Ken Gershman Vector-Borne and Zoonotic Diseases. Sep 2007, Vol. 7, No. 3: 394-402 Abstract | Full Text PDF | Reprints & PermissionsLate relapse of Q fever endocarditis Andreas J. Morguet, Andreas Jansen, Didier Raoult, Thomas Schneider Clinical Research in Cardiology. Aug 2007, Vol. 96, No. 7: 519-521 CrossRef LOUSE-BORNE BACTERIAL PATHOGENS IN LICE (PHTHIRAPTERA) OF RODENTS AND CATTLE FROM EGYPT Will K. Reeves, Daniel E. Szumlas, John R. Moriarity, Amanda D. Loftis, Magda M. Abbassy, Ibrahim M. Helmy, Gregory A. Dasch Journal of Parasitology. Feb 2006, Vol. 92, No. 2: 313 CrossRef Prevalence of Antibodies to Coxiella burnetii among Veterinary School Dairy Herds in the United States, 2003 Jennifer H. McQuiston, Vrinda N. Nargund, Jeffrey D. Miller, Rachael Priestley, Edward I. Shaw, Herbert A. Thompson Vector-Borne and Zoonotic Diseases. Mar 2005, Vol. 5, No. 1: 90-91 Abstract | Full Text PDF | Reprints & PermissionsQ fever pneumonia Thomas J Marrie Current Opinion in Infectious Diseases. May 2004, Vol. 17, No. 2: 137-142 CrossRef |
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