Emerging infectious diseases.
Periodical
Communicable Diseases
Communicable Disease Control
Publisher:
National Center for Infectious Diseases, Centers for Disease Control and Prevention (CDC),
Frequency: Bimonthly, 1999-
Country: United States
Language: English
Author(s):
National Center for Infectious Diseases (U.S.)
Start Year:1995 -
ISSN:
1080-6040 (Print)
1080-6059 (Electronic)
1080-6040 (Linking)
1080-6059 (Electronic)
1080-6040 (Linking)
Impact Factor
11.8
2022
| NLM ID: | 9508155 |
| (OCoLC): | 31848353 |
| (DNLM): | SR0083700(s) |
| Coden: | EIDIFA |
| LCCN: | sn 95007041 |
| Classification: | W1 EM664LH |
West Nile virus surveillance in Connecticut in 2000: an intense epizootic without high risk for severe human disease.
Emerging infectious diseases
October 5, 2001
Volume 7, Issue 4 636-642 doi: 10.3201/eid0704.010406
Hadler J, Nelson R, McCarthy T, Andreadis T, Lis MJ, French R, Beckwith W, Mayo D, Archambault G, Cartter M.In 1999, Connecticut was one of three states in which West Nile (WN) virus actively circulated prior to its recognition. In 2000, prospective surveillance was established, including monitoring bird deaths, testing dead crows, trapping and testing mosquitoes, testing horses and hospitalized humans with neurologic illness, and conducting a human seroprevalence survey. WN virus was first detected in a dead crow found on July 5 in Fairfield County. Ultimately, 1,095 dead crows, 14 mosquito pools, 7 horses, and one mildly symptomatic person were documented with WN virus infection. None of 86 hospit... Read More
20
West Nile outbreak in horses in southern France, 2000: the return after 35 years.
Emerging infectious diseases
October 5, 2001
Volume 7, Issue 4 692-696 doi: 10.3201/eid0704.010417
Murgue B, Murri S, Zientara S, Durand B, Durand JP, Zeller H.On September 6, 2000, two cases of equine encephalitis caused by West Nile (WN) virus were reported in southern France (Hérault Province), near Camargue National Park, where a WN outbreak occurred in 1962. Through November 30, 76 cases were laboratory confirmed among 131 equines with neurologic disorders. The last confirmed case was on November 3, 2000. All but three cases were located in a region nicknamed "la petite Camargue," which has several large marshes, numerous colonies of migratory and resident birds, and large mosquito populations. No human case has been confirmed among clinically ... Read More
96
Exposure of domestic mammals to West Nile virus during an outbreak of human encephalitis, New York City, 1999.
Emerging infectious diseases
October 5, 2001
Volume 7, Issue 4 736-738 doi: 10.3201/eid0704.010424
Komar N, Panella NA, Boyce E.We evaluated West Nile (WN) virus seroprevalence in healthy horses, dogs, and cats in New York City after an outbreak of human WN virus encephalitis in 1999. Two (3%) of 73 horses, 10 (5%) of 189 dogs, and none of 12 cats tested positive for WN virus-neutralizing antibodies. Domestic mammals should be evaluated as sentinels for local WN virus activity and predictors of the infection in humans. Read More
21
Borna disease virus infection in animals and humans.
Emerging infectious diseases
July 1, 1997
Volume 3, Issue 3 343-352 doi: 10.3201/eid0303.970311
Richt JA, Pfeuffer I, Christ M, Frese K, Bechter K, Herzog S.The geographic distribution and host range of Borna disease (BD), a fatal neurologic disease of horses and sheep, are larger than previously thought. The etiologic agent, Borna disease virus (BDV), has been identified as an enveloped nonsegmented negative-strand RNA virus with unique properties of replication. Data indicate a high degree of genetic stability of BDV in its natural host, the horse. Studies in the Lewis rat have shown that BDV replication does not directly influence vital functions; rather, the disease is caused by a virus-induced T-cell mediated immune reaction. Because antibodi... Read More
29
A novel morbillivirus pneumonia of horses and its transmission to humans.
Emerging infectious diseases
January 1, 1995
Volume 1, Issue 1 31-33 doi: 10.3201/eid0101.950107
Murray K, Rogers R, Selvey L, Selleck P, Hyatt A, Gould A, Gleeson L, Hooper P, Westbury H.No abstract available Read More
70
Methicillin-resistant Staphylococcus aureus ST398 in humans and animals, Central Europe.
Emerging infectious diseases
May 8, 2007
Volume 13, Issue 2 255-258 doi: 10.3201/eid1302.060924
Witte W, Strommenger B, Stanek C, Cuny C.Methicillin-resistant Staphylococcus aureus of clonal lineage ST398 that exhibits related spa types and contains SCCmec elements of types IVa or V has been isolated from colonized and infected humans and companion animals (e.g., dog, pig, horse) in Germany and Austria. Of particular concern is the association of these cases with cases of nosocomial ventilator-associated pneumonia. Read More
162
Outbreak of henipavirus infection, Philippines, 2014.
Emerging infectious diseases
January 28, 2015
Volume 21, Issue 2 328-331 doi: 10.3201/eid2102.141433
Ching PK, de los Reyes VC, Sucaldito MN, Tayag E, Columna-Vingno AB, Malbas FF, Bolo GC, Sejvar JJ, Eagles D, Playford G, Dueger E, Kaku Y....During 2014, henipavirus infection caused severe illness among humans and horses in southern Philippines; fatality rates among humans were high. Horse-to-human and human-to-human transmission occurred. The most likely source of horse infection was fruit bats. Ongoing surveillance is needed for rapid diagnosis, risk factor investigation, control measure implementation, and further virus characterization. Read More
147
Hendra virus vaccine, a one health approach to protecting horse, human, and environmental health.
Emerging infectious diseases
February 28, 2014
Volume 20, Issue 3 372-379 doi: 10.3201/eid2003.131159
Middleton D, Pallister J, Klein R, Feng YR, Haining J, Arkinstall R, Frazer L, Huang JA, Edwards N, Wareing M, Elhay M, Hashmi Z, Bingham J, Yamada M....In recent years, the emergence of several highly pathogenic zoonotic diseases in humans has led to a renewed emphasis on the interconnectedness of human, animal, and environmental health, otherwise known as One Health. For example, Hendra virus (HeV), a zoonotic paramyxovirus, was discovered in 1994, and since then, infections have occurred in 7 humans, each of whom had a strong epidemiologic link to similarly affected horses. As a consequence of these outbreaks, eradication of bat populations was discussed, despite their crucial environmental roles in pollination and reduction of the insect p... Read More
113
Rickettsial infection in animals and Brazilian spotted fever endemicity.
Emerging infectious diseases
March 9, 2005
Volume 11, Issue 2 265-270 doi: 10.3201/eid1102.040656
Sangioni LA, Horta MC, Vianna MC, Gennari SM, Soares RM, Galvão MA, Schumaker TT, Ferreira F, Vidotto O, Labruna MB.We compared the rickettsial infection status of Amblyomma cajennense ticks, humans, dogs, and horses in both Brazilian spotted fever (BSF)-endemic and -nonendemic areas in the state of Sao Paulo, Brazil. Most of the horses and few dogs from BSF-endemic areas had serologic titers against Rickettsia rickettsii antigens. In contrast, no dogs or horses from BSF-nonendemic areas had serologic titers against R. rickettsii antigens, although they were continually exposed to A. cajennense ticks. All human serum samples and ticks from both areas were negative by serologic assay and polymerase chain rea... Read More
101
West Nile outbreak in horses in southern France, 2000: the return after 35 years.
Emerging infectious diseases
October 5, 2001
Volume 7, Issue 4 692-696 doi: 10.3201/eid0704.010417
Murgue B, Murri S, Zientara S, Durand B, Durand JP, Zeller H.On September 6, 2000, two cases of equine encephalitis caused by West Nile (WN) virus were reported in southern France (Hérault Province), near Camargue National Park, where a WN outbreak occurred in 1962. Through November 30, 76 cases were laboratory confirmed among 131 equines with neurologic disorders. The last confirmed case was on November 3, 2000. All but three cases were located in a region nicknamed "la petite Camargue," which has several large marshes, numerous colonies of migratory and resident birds, and large mosquito populations. No human case has been confirmed among clinically ... Read More
96
Experimental infection of horses with West Nile virus.
Emerging infectious diseases
April 25, 2002
Volume 8, Issue 4 380-386 doi: 10.3201/eid0804.010239
Bunning ML, Bowen RA, Cropp CB, Sullivan KG, Davis BS, Komar N, Godsey MS, Baker D, Hettler DL, Holmes DA, Biggerstaff BJ, Mitchell CJ.A total of 12 horses of different breeds and ages were infected with West Nile virus (WNV) via the bites of infected Aedes albopictus mosquitoes. Half the horses were infected with a viral isolate from the brain of a horse (BC787), and half were infected with an isolate from crow brain (NY99-6625); both were NY99 isolates. Postinfection, uninfected female Ae. albopictus fed on eight of the infected horses. In the first trial, Nt antibody titers reached >1:320, 1:20, 1:160, and 1:80 for horses 1 to 4, respectively. In the second trial, the seven horses with subclinical infections developed Nt a... Read More
90
West Nile virus epidemic in horses, Tuscany region, Italy.
Emerging infectious diseases
December 25, 2002
Volume 8, Issue 12 1372-1378 doi: 10.3201/eid0812.020234
Autorino GL, Battisti A, Deubel V, Ferrari G, Forletta R, Giovannini A, Lelli R, Murri S, Scicluna MT.During the late summer of 1998, veterinary authorities in Tuscany, Italy, received reports of cases of neurologic disease among horses residing in a large wetland area located in the provinces of Florence and Pistoia. West Nile virus was isolated from two of the six horses that died or were euthanized. A retrospective epidemiologic study identified 14 clinical neurologic cases that occurred from August 20 to October 6 (attack rate of 2.8%). A serologic survey conducted over a 700-km2 area in stables with and without apparent clinical cases confirmed a wider spread of the infection, with an ove... Read More
81
Characterization of virulent West Nile virus Kunjin strain, Australia, 2011.
Emerging infectious diseases
April 21, 2012
Volume 18, Issue 5 792-800 doi: 10.3201/eid1805.111720
Frost MJ, Zhang J, Edmonds JH, Prow NA, Gu X, Davis R, Hornitzky C, Arzey KE, Finlaison D, Hick P, Read A, Hobson-Peters J, May FJ, Doggett SL....To determine the cause of an unprecedented outbreak of encephalitis among horses in New South Wales, Australia, in 2011, we performed genomic sequencing of viruses isolated from affected horses and mosquitoes. Results showed that most of the cases were caused by a variant West Nile virus (WNV) strain, WNV(NSW2011), that is most closely related to WNV Kunjin (WNV(KUN)), the indigenous WNV strain in Australia. Studies in mouse models for WNV pathogenesis showed that WNV(NSW2011) is substantially more neuroinvasive than the prototype WNV(KUN) strain. In WNV(NSW2011), this apparent increase in vir... Read More
79
A novel morbillivirus pneumonia of horses and its transmission to humans.
Emerging infectious diseases
January 1, 1995
Volume 1, Issue 1 31-33 doi: 10.3201/eid0101.950107
Murray K, Rogers R, Selvey L, Selleck P, Hyatt A, Gould A, Gleeson L, Hooper P, Westbury H.No abstract available Read More
70
West Nile virus isolation from equines in Argentina, 2006.
Emerging infectious diseases
December 21, 2006
Volume 12, Issue 10 1559-1561 doi: 10.3201/eid1210.060852
Morales MA, Barrandeguy M, Fabbri C, Garcia JB, Vissani A, Trono K, Gutierrez G, Pigretti S, Menchaca H, Garrido N, Taylor N, Fernandez F, Levis S....West Nile virus (WNV) was isolated from the brains of 3 horses that died from encephalitis in February 2006. The horses were from different farms in central Argentina and had not traveled outside the country. This is the first isolation of WNV in South America. Read More
68
Methicillin-resistant Staphylococcus aureus in horses and horse personnel, 2000-2002.
Emerging infectious diseases
March 11, 2005
Volume 11, Issue 3 430-435 doi: 10.3201/eid1103.040481
Weese JS, Archambault M, Willey BM, Hearn P, Kreiswirth BN, Said-Salim B, McGeer A, Likhoshvay Y, Prescott JF, Low DE.Methicillin-resistant Staphylococcus aureus (MRSA) infection was identified in 2 horses treated at a veterinary hospital in 2000, prompting a study of colonization rates of horses and associated persons. Seventy-nine horses and 27 persons colonized or infected with MRSA were identified from October 2000 to November 2002; most isolations occurred in a 3-month period in 2002. Twenty-seven (34%) of the equine isolates were from the veterinary hospital, while 41 (51%) were from 1 thoroughbred farm in Ontario. Seventeen (63%) of 27 human isolates were from the veterinary hospital, and 8 (30%) were ... Read More
68
Methicillin-resistant staphylococci in companion animals.
Emerging infectious diseases
February 21, 2006
Volume 11, Issue 12 1942-1944 doi: 10.3201/eid1112.050241
Baptiste KE, Williams K, Willams NJ, Wattret A, Clegg PD, Dawson S, Corkill JE, O'Neill T, Hart CA.We determined the molecular characteristics of methicillin-resistant staphylococci from animals and staff at a small animal and equine hospital. Methicillin-resistant Staphylococcus aureus (MRSA) identical to human EMRSA-15 was found in dogs and hospital staff. In contrast, 5 distinct MRSA strains were isolated from horses but not from hospital staff. Read More
67
Transmission of Streptococcus equi subspecies zooepidemicus infection from horses to humans.
Emerging infectious diseases
June 20, 2013
Volume 19, Issue 7 1041-1048 doi: 10.3201/eid1907.121365
Pelkonen S, Lindahl SB, Suomala P, Karhukorpi J, Vuorinen S, Koivula I, Väisänen T, Pentikäinen J, Autio T, Tuuminen T.Streptococcus equi subspecies zooepidemicus (S. zooepidemicus) is a zoonotic pathogen for persons in contact with horses. In horses, S. zooepidemicus is an opportunistic pathogen, but human infections associated with S. zooepidemicus are often severe. Within 6 months in 2011, 3 unrelated cases of severe, disseminated S. zooepidemicus infection occurred in men working with horses in eastern Finland. To clarify the pathogen's epidemiology, we describe the clinical features of the infection in 3 patients and compare the S. zooepidemicus isolates from the human cases with S. zooepidemicus isolates... Read More
67
Shrews as reservoir hosts of borna disease virus.
Emerging infectious diseases
May 18, 2006
Volume 12, Issue 4 675-677 doi: 10.3201/eid1204.051418
Hilbe M, Herrsche R, Kolodziejek J, Nowotny N, Zlinszky K, Ehrensperger F.Borna disease virus (BDV) is the causative agent of severe T-cell-mediated meningoencephalitis in horses, sheep, and other animal species in central Europe. Here we report the first unequivocal detection of a BDV reservoir species, the bicolored white-toothed shrew, Crocidura leucodon, in an area in Switzerland with endemic Borna disease. Read More
56
Nonprimate hepaciviruses in domestic horses, United kingdom.
Emerging infectious diseases
November 23, 2012
Volume 18, Issue 12 1976-1982 doi: 10.3201/eid1812.120498
Lyons S, Kapoor A, Sharp C, Schneider BS, Wolfe ND, Culshaw G, Corcoran B, McGorum BC, Simmonds P.Although the origin of hepatitis C virus infections in humans remains undetermined, a close homolog of this virus, termed canine hepacivirus (CHV) and found in respiratory secretions of dogs, provides evidence for a wider distribution of hepaciviruses in mammals. We determined frequencies of active infection among dogs and other mammals in the United Kingdom. Samples from dogs (46 respiratory, 99 plasma, 45 autopsy samples) were CHV negative by PCR. Screening of 362 samples from cats, horses, donkeys, rodents, and pigs identified 3 (2%) positive samples from 142 horses. These samples were gene... Read More
52
New Parvovirus Associated with Serum Hepatitis in Horses after Inoculation of Common Biological Product.
Emerging infectious diseases
January 20, 2018
Volume 24, Issue 2 303-310 doi: 10.3201/eid2402.171031
Divers TJ, Tennant BC, Kumar A, McDonough S, Cullen J, Bhuva N, Jain K, Chauhan LS, Scheel TKH, Lipkin WI, Laverack M, Trivedi S, Srinivasa S....Equine serum hepatitis (i.e., Theiler's disease) is a serious and often life-threatening disease of unknown etiology that affects horses. A horse in Nebraska, USA, with serum hepatitis died 65 days after treatment with equine-origin tetanus antitoxin. We identified an unknown parvovirus in serum and liver of the dead horse and in the administered antitoxin. The equine parvovirus-hepatitis (EqPV-H) shares <50% protein identity with its phylogenetic relatives of the genus Copiparvovirus. Next, we experimentally infected 2 horses using a tetanus antitoxin contaminated with EqPV-H. Viremia develop... Read More
49
Getah Virus Infection among Racehorses, Japan, 2014.
Emerging infectious diseases
April 22, 2015
Volume 21, Issue 5 883-885 doi: 10.3201/eid2105.141975
Nemoto M, Bannai H, Tsujimura K, Kobayashi M, Kikuchi T, Yamanaka T, Kondo T.An outbreak of Getah virus infection occurred among racehorses in Japan during September and October 2014. Of 49 febrile horses tested by reverse transcription PCR, 25 were positive for Getah virus. Viruses detected in 2014 were phylogenetically different from the virus isolated in Japan in 1978. Read More
47
Autochthonous Leishmania siamensis in horse, Florida, USA.
Emerging infectious diseases
August 31, 2012
Volume 18, Issue 9 1545-1547 doi: 10.3201/eid1809.120184
Reuss SM, Dunbar MD, Calderwood Mays MB, Owen JL, Mallicote MF, Archer LL, Wellehan JF.No abstract available Read More
46
Hendra virus outbreak with novel clinical features, Australia.
Emerging infectious diseases
February 2, 2010
Volume 16, Issue 2 338-340 doi: 10.3201/eid1602.090780
Field H, Schaaf K, Kung N, Simon C, Waltisbuhl D, Hobert H, Moore F, Middleton D, Crook A, Smith G, Daniels P, Glanville R, Lovell D.To determine the epidemiologic and clinical features of a 2008 outbreak of Hendra virus infection in a veterinary clinic in Australia, we investigated the equine case-series. Four of 5 infected horses died, as did 1 of 2 infected staff members. Clinical manifestation in horses was predominantly neurologic. Preclinical transmission appears likely. Read More
45
Lineage 2 west nile virus as cause of fatal neurologic disease in horses, South Africa.
Emerging infectious diseases
June 16, 2009
Volume 15, Issue 6 877-884 doi: 10.3201/eid1506.081515
Venter M, Human S, Zaayman D, Gerdes GH, Williams J, Steyl J, Leman PA, Paweska JT, Setzkorn H, Rous G, Murray S, Parker R, Donnellan C, Swanepoel R.Serologic evidence suggests that West Nile virus (WNV) is widely distributed in horses in southern Africa. However, because few neurologic cases have been reported, endemic lineage 2 strains were postulated to be nonpathogenic in horses. Recent evidence suggests that highly neuroinvasive lineage 2 strains exist in humans and mice. To determine whether neurologic cases are being missed in South Africa, we tested 80 serum or brain specimens from horses with unexplained fever (n = 48) and/or neurologic signs (n = 32) for WNV. From March 2007 through June 2008, using reverse transcription-PCR (RT-... Read More
45
West Nile fever outbreak in horses and humans, Spain, 2010.
Emerging infectious diseases
December 17, 2011
Volume 17, Issue 12 2397-2399 doi: 10.3201/eid1712.110651
García-Bocanegra I, Jaén-Téllez JA, Napp S, Arenas-Montes A, Fernández-Morente M, Fernández-Molera V, Arenas A.TO THE EDITOR: West Nile virus (WNV) is a member of the genus Flavivirus within the Japanese encephalitis antigenic complex. The enzootic virus cycle involves transmission between avian hosts and ornithophilic mosquitoes, whereas humans and horses are considered dead-end hosts. Given the recent increase of WNV infection in humans and horses in Europe, concern has been raised regarding public and animal health. Read More
42
Macrolide- and rifampin-resistant Rhodococcus equi on a horse breeding farm, Kentucky, USA.
Emerging infectious diseases
January 26, 2013
Volume 19, Issue 2 282-285 doi: 10.3201/eid1902.121210
Burton AJ, Giguère S, Sturgill TL, Berghaus LJ, Slovis NM, Whitman JL, Levering C, Kuskie KR, Cohen ND.Macrolide and rifampin resistance developed on a horse breeding farm after widespread use was instituted for treatment of subclinical pulmonary lesions in foals. Resistance occurred in 6 (24%) of 25 pretreatment and 8 (62%) of 13 (62%) posttreatment isolates from affected foals. Drug-resistant isolates formed 2 distinct genotypic clusters. Read More
41
West Nile virus in Morocco, 2003.
Emerging infectious diseases
March 9, 2005
Volume 11, Issue 2 306-309 doi: 10.3201/eid1102.040817
Schuffenecker I, Peyrefitte CN, el Harrak M, Murri S, Leblond A, Zeller HG.West Nile virus (WNV) reemerged in Morocco in September 2003, causing an equine outbreak. A WNV strain isolated from a brain biopsy was completely sequenced. On the basis of phylogenetic analyses, Moroccan WNV strains isolated during the 1996 and 2003 outbreaks were closely related to other strains responsible for equine outbreaks in the western Mediterranean basin. Read More
41
Influenza virus transmission from horses to dogs, Australia.
Emerging infectious diseases
March 31, 2010
Volume 16, Issue 4 699-702 doi: 10.3201/eid1604.091489
Kirkland PD, Finlaison DS, Crispe E, Hurt AC.During the 2007 equine influenza outbreak in Australia, respiratory disease in dogs in close contact with infected horses was noted; influenza (H3N8) virus infection was confirmed. Nucleotide sequence of the virus from dogs was identical to that from horses. No evidence of dog-to-dog transmission or virus persistence in dogs was found. Read More
41
Experimental infection of horses with Hendra virus/Australia/horse/2008/Redlands.
Emerging infectious diseases
December 17, 2011
Volume 17, Issue 12 2232-2238 doi: 10.3201/eid1712.111162
Marsh GA, Haining J, Hancock TJ, Robinson R, Foord AJ, Barr JA, Riddell S, Heine HG, White JR, Crameri G, Field HE, Wang LF, Middleton D.Hendra virus (HeV) is a highly pathogenic zoonotic paramyxovirus harbored by Australian flying foxes with sporadic spillovers directly to horses. Although the mode and critical control points of HeV spillover to horses from flying foxes, and the risk for transmission from infected horses to other horses and humans, are poorly understood, we successfully established systemic HeV disease in 3 horses exposed to Hendra virus/Australia/Horse/2008/Redlands by the oronasal route, a plausible route for natural infection. In 2 of the 3 animals, HeV RNA was detected continually in nasal swabs from as ea... Read More
40
Serologic assessment of possibility for MERS-CoV infection in equids.
Emerging infectious diseases
December 23, 2014
Volume 21, Issue 1 181-182 doi: 10.3201/eid2101.141342
Meyer B, García-Bocanegra I, Wernery U, Wernery R, Sieberg A, Müller MA, Drexler JF, Drosten C, Eckerle I.No abstract available Read More
39
Equine West Nile encephalitis, United States.
Emerging infectious diseases
October 9, 2001
Volume 7, Issue 4 665-669 doi: 10.3201/eid0704.010412
Ostlund EN, Crom RL, Pedersen DD, Johnson DJ, Williams WO, Schmitt BJ.After the 1999 outbreak of West Nile (WN) encephalitis in New York horses, a case definition was developed that specified the clinical signs, coupled with laboratory test results, required to classify cases of WN encephalitis in equines as either probable or confirmed. In 2000, 60 horses from seven states met the criteria for a confirmed case. The cumulative experience from clinical observations and diagnostic testing during the 1999 and 2000 outbreaks of WN encephalitis in horses will contribute to further refinement of diagnostic criteria. Read More
39
Serologic evidence of West Nile virus infection in horses, Coahuila State, Mexico.
Emerging infectious diseases
August 2, 2003
Volume 9, Issue 7 853-856 doi: 10.3201/eid0907.030166
Blitvich BJ, Fernandez-Salas I, Contreras-Cordero JF, Marlenee NL, Gonzalez-Rojas JI, Komar N, Gubler DJ, Calisher CH, Beaty BJ.Serum samples were obtained from 24 horses in the State of Coahuila, Mexico, in December 2002. Antibodies to West Nile virus were detected by epitope-blocking enzyme-linked immunosorbent assay and confirmed by plaque reduction neutralization test in 15 (62.5%) horses. We report the first West Nile virus activity in northern Mexico. Read More
37
Reemergence of rabies in Chhukha district, Bhutan, 2008.
Emerging infectious diseases
December 3, 2010
Volume 16, Issue 12 1925-1930 doi: 10.3201/eid1612.100958
Tenzin , Sharma B, Dhand NK, Timsina N, Ward MP.From January through July 2008, rabies reemerged in the Chhukha district of southwestern Bhutan. To clarify the distribution and direction of spread of this outbreak, we mapped reported cases and conducted directional tests (mean center and standard deviational ellipse). The outbreak resulted in the death of 97 animals (42 cattle, 52 dogs, and 3 horses). Antirabies vaccine was given free of charge to ≈674 persons suspected to have been exposed. The outbreak spread south to north and appeared to follow road networks, towns, and areas of high human density associated with a large, free-roaming... Read More
35
Tick-borne encephalitis virus in horses, Austria, 2011.
Emerging infectious diseases
May 2, 2013
Volume 19, Issue 4 635-637 doi: 10.3201/eid1904.121450
Rushton JO, Lecollinet S, Hubálek Z, Svobodová P, Lussy H, Nowotny N.An unexpectedly high infection rate (26.1%) of tick-borne encephalitis virus (TBEV) was identified in a herd of 257 horses of the same breed distributed among 3 federal states in Austria. Young age (p<0.001) and male sex (p=0.001) were positively associated with infection. Read More
34