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Classical swine fever

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(Redirected from Pestivirus C)
Pestivirus C
Virus classification Edit this classification
(unranked): Virus
Realm: Riboviria
Kingdom: Orthornavirae
Phylum: Kitrinoviricota
Class: Flasuviricetes
Order: Amarillovirales
Family: Flaviviridae
Genus: Pestivirus
Species:
Pestivirus C
Synonyms
  • Classical swine fever virus[1]
  • Hog cholera virus[2]
  • Hog cholera (European swine fever) virus[3]

Classical swine fever (CSF) or hog cholera (also sometimes called pig plague based on the German word Schweinepest) is a highly contagious disease of swine (Old World and New World pigs).[4] It has been mentioned as a potential bioweapon.[5]

Clinical signs

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Swine fever causes fever, skin lesions, convulsions, splenic infarctions and usually (particularly in young animals) death within 15 days.[citation needed]

The disease has acute and chronic forms, and can range from severe, with high mortality, to mild or even unapparent.[citation needed]

In the acute form of the disease, in all age groups, there is fever, huddling of sick animals, loss of appetite, dullness, weakness, conjunctivitis, constipation followed by diarrhoea, and an unsteady gait. Several days after the onset of clinical signs, the ears, abdomen and inner thighs may show a purple discoloration. Animals with acute disease die within 1–2 weeks. Severe cases of the disease appear very similar to African swine fever. With low-virulence strains, the only expression may be poor reproductive performance and the birth of piglets with neurologic defects such as congenital tremor.[6]

Immunization

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A small fraction of the infected pigs may survive and are rendered immune. Artificial immunization procedures were first developed by Marion Dorset.[7][8]

Epidemiology

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The disease is endemic in much of Asia, [Central and South America, and parts of Europe and Africa.[9] It was believed to have been eradicated in the United Kingdom by 1966 (according to the Department for Environment, Food and Rural Affairs), but an outbreak occurred in East Anglia in 2000. On January 31, 1978 USDA Secretary Bob Bergland declared that the United States was free of the disease.[10] The appearance of CSF in Italy and Spain was traced by in a retroactive genetic analysis.[11] Greiser-Wilke et al., 2000 traced these to shipments of piglets from the Netherlands.[11]

Other regions believed free of CSF include Australia, Belgium (1998), Canada (1962), Ireland, New Zealand, and Scandinavia.[citation needed]

Virus

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Pinpoint hemorrhages on the kidneys are characteristic of classical swine fever.

The infectious agent responsible is a virus CSFV (previously called hog cholera virus) of the genus Pestivirus in the family Flaviviridae.[4][12] CSFV is closely related to the ruminant pestiviruses that cause bovine viral diarrhoea and border disease.[13]

The effect of different CSFV strains varies widely, leading to a wide range of clinical signs. Highly virulent strains correlate with acute, obvious disease and high mortality, including neurological signs and hemorrhages within the skin.[citation needed]

Less virulent strains can give rise to subacute or chronic infections that may escape detection, while still causing abortions and stillbirths. In these cases, herds in high-risk areas are usually serologically tested on a thorough statistical basis.[citation needed]

Infected piglets born to infected but subclinical sows help maintain the disease within a population. Other signs can include lethargy, fever, immunosuppression, chronic diarrhoea, and secondary respiratory infections. The incubation period of CSF ranges from 2 to 14 days, but clinical signs may not be apparent until after 2 to 3 weeks. Preventive state regulations usually assume 21 days as the outside limit of the incubation period. Animals with an acute infection can survive 2 to 3 months before their eventual death.[citation needed]

Eradicating CSF is problematic. Current programmes revolve around rapid detection, diagnosis, and slaughter. This may possibly be followed by emergency vaccination (ATCvet codes: QI09AA06 (WHO) for the inactivated viral vaccine, QI09AD04 (WHO) for the live vaccine). Vaccination is only used where the virus is widespread in the domestic pig population and/or in wild or feral pigs. In the latter case, a slaughter policy alone is usually impracticable. Instead, countries within the EU have implemented hunting restrictions designed to limit the movement of infected boars, as well as using marker and emergency vaccines to inhibit the spread of infection.[14] Possible sources for maintaining and introducing infection include the wide transport of pigs and pork products, as well as endemic CSF within wild boar and feral pig populations.

Strains

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Diagnosis

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Standard diagnostic tests include

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  • Fluorescent antibody test (FAT)  – detection of viral protein using fluorescent labelled antibodies in tissue[17]
  • Serum Enzyme-linked-immunosorbent assay (ELISA) – detection of host animal antibody response in serum samples.[17]
  • Antigen ELISA – detection of viral protein (antigen) in serum samples.[17]
  • RT-qPCR test – detection of viral RNA in samples, especially useful to differentiate strains.[17] Direct genetic typing for CSF was first developed by Greiser-Wilke et al., 2000 to trace descendants of the 1997-1998 EU epizootic.[15][11][16]
  • Virus isolation – isolation of virus in cell culture.[17]

Histopathological examination

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  • Histology of the brain shows vasculoendothelial proliferation and perivascular cuffing (cuffing is highly suggestive when accompanied by other signs, but is not pathognomonic for the disease).

See also

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References

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  1. ^ Smith, Donald B.; et al. (31 May 2017). "Renaming four species and creating seven new species in the genus Pestivirus". International Committee on Taxonomy of Viruses. Retrieved 21 August 2019. ...Classical swine fever virus becomes Pestivirus C...
  2. ^ ICTV 7th Report van Regenmortel, M.H.V., Fauquet, C.M., Bishop, D.H.L., Carstens, E.B., Estes, M.K., Lemon, S.M., Maniloff, J., Mayo, M.A., McGeoch, D.J., Pringle, C.R. and Wickner, R.B. (2000). Virus taxonomy. Seventh report of the International Committee on Taxonomy of Viruses. Academic Press, San Diego. 1162 pp.
  3. ^ ICTV 6th Report Murphy, F. A., Fauquet, C. M., Bishop, D. H. L., Ghabrial, S. A., Jarvis, A. W. Martelli, G. P. Mayo, M. A. & Summers, M. D.(eds) (1995). Virus Taxonomy. Sixthreport of the International Committee on Taxonomy of Viruses. Archives of Virology Supplement 10, 590
  4. ^ a b Classical Swine Fever, The Center for Food Security and Public Health / The Institute for International Cooperation in Animal Biologics, College of Veterinary Medicine, Iowa State University, update September 2009.
  5. ^ Dudley, Joseph P.; Woodford, Michael H. (1 July 2002). "Bioweapons, Biodiversity, and Ecocide: Potential Effects of Biological Weapons on Biological DiversityBioweapon disease outbreaks could cause the extinction of endangered wildlife species, the erosion of genetic diversity in domesticated plants and animals, the destruction of traditional human livelihoods, and the extirpation of indigenous cultures". BioScience. 52 (7): 583–592. doi:10.1641/0006-3568(2002)052[0583:BBAEPE]2.0.CO;2. ISSN 0006-3568.
  6. ^ "Classical swine fever".
  7. ^ "Marion Dorset: American Biochemist/Colleen Farrell 2002" (PDF). Archived from the original (PDF) on 2015-04-15.
  8. ^ "Agricultural Hall of Fame :: Hall of Fame Inductee". Archived from the original on 2015-04-12. Retrieved 2015-04-06., Marion Dorset/National Agricultural Hall of Fame
  9. ^ Arzt; et al. (2010). "Agricultural Diseases on the Move Early in the Third Millennium". Veterinary Pathology. 47 (1): 15–27. doi:10.1177/0300985809354350. PMID 20080480. S2CID 31753926.
  10. ^ Bill Kemp (April 17, 2016). "PFOP: Hog cholera ravaged countryside in 1913". Pantagraph-Bloomington, Illinois. Retrieved February 9, 2020.
  11. ^ a b c d e f g h i j k l m Moennig, V.; Floegel-Niesmann, G.; Greiser-Wilke, I. (2003). "Clinical Signs and Epidemiology of Classical Swine Fever: A Review of New Knowledge". The Veterinary Journal. 165 (1). Elsevier: 11–20. doi:10.1016/s1090-0233(02)00112-0. ISSN 1090-0233. PMID 12618065.
  12. ^ "Exotic animal diseases - Classical swine fever". Archived from the original on August 22, 2003.
  13. ^ Rumenapf and Thiel (2008). "Molecular Biology of Pestiviruses". Animal Viruses: Molecular Biology. Caister Academic Press. ISBN 978-1-904455-22-6.
  14. ^ Moennig, V; Floegel-Niesmann, G; Greiser-Wilke, I (2003-01-01). "Clinical Signs and Epidemiology of Classical Swine Fever: A Review of New Knowledge". The Veterinary Journal. 165 (1): 11–20. doi:10.1016/S1090-0233(02)00112-0. PMID 12618065.
  15. ^ a b c d e f g h i j k Blome, Sandra; Staubach, Christoph; Henke, Julia; Carlson, Jolene; Beer, Martin (2017-04-21). "Classical Swine Fever—An Updated Review". Viruses. 9 (4). MDPI: 86. doi:10.3390/v9040086. PMC 5408692. PMID 28430168.
  16. ^ a b Paton, D.J.; Greiser-Wilke, I. (2003). "Classical swine fever – an update". Research in Veterinary Science. 75 (3). Elsevier: 169–178. doi:10.1016/s0034-5288(03)00076-6. ISSN 0034-5288. PMID 13129664.
  17. ^ a b c d e "Manual of Diagnostic Tests and Vaccines for Terrestrial Animals 2022" (PDF). World Organization for Animal Health. 28 June 2022. Retrieved 10 November 2022.
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