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Ross River virus

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Ross River virus
Virus classification Edit this classification
(unranked): Virus
Realm: Riboviria
Kingdom: Orthornavirae
Phylum: Kitrinoviricota
Class: Alsuviricetes
Order: Martellivirales
Family: Togaviridae
Genus: Alphavirus
Species:
Ross River virus
Synonyms[1]
  • Sagiyama virus

Ross River virus (RRV) is a small encapsulated single-strand RNA Alphavirus endemic to Australia, Papua New Guinea and other islands in the South Pacific. It is responsible for a type of mosquito-borne non-lethal but extremely debilitating tropical disease known as Ross River fever, previously termed "epidemic polyarthritis". There is no known cure, and it can last in the system of the host for up to 20 years. The virus is suspected to be enzootic in populations of various native Australian mammals,[2] and has been found on occasion in horses.[3]

Classification and morphology

Aedes mosquito

Taxonomically, Ross River virus belongs to the virus genus Alphavirus, which is part of the family Togaviridae. The alphaviruses are a group of small enveloped single-strand positive-sense RNA viruses. RRV belongs to a subgroup of "Old World" (Eurasian-African-Australasian) alphaviruses, and is considered closely related to Sagiyama virus.[3]

The virions (virus particles) themselves contain their genome in a protein capsid 700 Å in diameter. They are characterised by the presence of two glycoproteins (E1 and E2) embedded as trimeric dimers in a host-derived lipid envelope.[4]

Because RRV is transmitted by mosquitos, it is considered an arbovirus, a non-taxonomic term for viruses borne by arthropod vectors.

History

In 1928, an outbreak of acute febrile arthritis was recorded in Narrandera and Hay in New South Wales, Australia. In 1943, several outbreaks of arthralgia and arthritis were described in the Northern Territory, Queensland and the Schouten Islands, off the northern coast of Papua New Guinea. The name "epidemic polyarthritis" was coined for the disease. In 1956, an epidemic occurred in the Murray Valley which was compared to "acute viral polyarthritis" caused by Chikungunya virus. The Australian disease seemed to progress in milder fashion. In 1956, serological testing suggested an unknown new species of alphavirus (group A arbovirus) was the likely culprit.[3]

In July and August 1956 and 1957, a virus recovered from mosquitoes collected near Tokyo, Japan, and was dubbed Sagiyama virus.[5] For a time, it was thought to be a separate species, but is now considered conspecific with Ross River virus.[1]

In 1959, a new alphavirus was identified in samples from a mosquito (Aedes vigilax) trapped in the Ross River, located in Townsville, Queensland, Australia. Further serological testing showed that patients who had suffered "epidemic polyarthritis" in Queensland had antibodies to the virus. The new virus was named Ross River virus, and the disease Ross River fever.[3]

The virus itself was first isolated in 1972 using suckling mice. It was found that RRV isolated from human serum could kill mice. However, the serum containing the virus that was used had come from an Aboriginal boy from Edward River, North Queensland. The child had a fever and a rash but no arthritis, making the link between RRV and Ross River fever less than concrete.[3]

The largest-ever outbreak of the virus was in 1979–1980 and occurred in the western Pacific. The outbreak involved the islands of Fiji, Samoa, the Cook Islands, and New Caledonia.[6] However, RRV was later isolated in humans following a series of epidemic polyarthritis outbreaks in Fiji, Samoa and the Cook Islands during 1979. RRV was isolated in an Australian patient suffering from Ross River fever in 1985.[3]

In 2010, Ross River virus was found to have made its way to the Aundh area in Pune, India, and spread to other parts of the city. The RRV infection is characterised by inflammation and pain to multiple joints. Hydration by sufficient fluid intake is recommended, to ensure that the fever does not rise to very dangerous levels. It is also recommended that a doctor be consulted immediately as regular paracetamol gives only temporary reprieve from the fever.[citation needed]

Ecology

In rural and regional areas of Australia, the continued prevalence of Ross River virus is thought to be supported by natural reservoirs such as large marsupial mammals. Antibodies to Ross River virus have been found in a wide variety of placental and marsupial mammals, and also in a few bird species. It is not presently known what reservoir hosts support Ross River virus in metropolitan areas such as Brisbane.[3]

The southern saltmarsh mosquito (Aedes camptorhynchus), which is known to carry the Ross River virus, was discovered in Napier, New Zealand, in 1998. Due to an 11-year program by the New Zealand Ministry of Health, and later the Ministry of Agriculture & Fisheries, the species was declared completely eradicated from New Zealand in July 2010.[7] As of September 2006, there has never been a report of a case of Ross River virus acquired within New Zealand.[8]

Separate mosquito species may act as vector, widespread across areas and seasonal/geographical locations. In southern and northern regions, the Aedes group (A. camptorhynchus and A. vigilax) are the main RRV carriers. However, inland the Culex annulirostris is the main carrier with Aedes mosquitoes becoming active during wet seasons.[9]

Western Australia

Due to the expansion and housing demand in the south west of Western Australia, residential development is occurring closer to wetlands[10] in spite of the fact that the ecosystem is known for mosquito breeding. Particularly in the Peel region where living near water is desirable for aesthetic value.[10] Over the decade of June 2011 – 2012 the population increased by 44,000 residents averaging a rate of 4.5 per cent per annum. In June 2013 the Peel region accounted for approximately five per cent of the State's population and predicted to account for around 6.7 per cent of Western Australia's population by 2031.[11][12]

A study comparing the risk of contracting Ross River virus (RRV) and the distance of the dwellings from Muddy Lakes.[13] The reports showed within a one kilometre buffer zone there were approximately 1550 mosquitos in traps per night with 89% of them being Ae. camptorhynchus decreasing to approximately 450 mosquitos with 57% Ae. camptorhynchus at the six kilometre buffer zone. The study suggests that there is a significantly higher risk of contracting RRV when living closer to Muddy Lakes however, there was a rise in the two kilometre buffer zone of 3700 mosquitos with 94% Ae. camptorhynchus. A similar trend in the study same study conducted in the Peel region resulting in less mosquitoes the further away the buffer distance.[10]

In 1995–96 Leschenault and Capel-Busselton were affected by an outbreak of 524 cases of RRV disease.[14] Although this occurred around a decade ago, the data analysed the total RRV cases per 1000 persons for each 500m buffer zone. This shows an elevated risk of contracting the disease if living in close proximity to the Leschenault Estuary, within 2 km being the strongest disease risk gradient.[14]

Evidence shows that there is a strong correlation between contracting RRV when living in close proximity to wetlands in the south west of Western Australia.[10][13][14] However, due to continuous growth and development of residential areas around these wetlands it is expected that problems with RRV disease will occur.

Risks

There are several factors that can contribute to an individual's risk for Ross River virus in Australia. These risks were trialed in a study conducted in tropical Australia[15] which illustrate that factors such as camping, light coloured clothing, exposure to certain flora and fauna and specific protective mechanisms are able to increase or decrease the likelihood of contracting the virus. By increasing the frequency of camping the individual's risk increases eight-fold, suggesting that an increased exposure to wildlife increases risk. This is shown by the narrow 95% confidence interval of 1.07–4.35 within the study. For example, an individual's exposure to kangaroos, wallabies and bromeliad plants also increased risk, suggesting that they are reservoirs for infection, breeding sites for mosquitoes and potential vectors of the virus. Although these areas show a higher risk for the virus, humans should still enjoy the wildlife but consider that preventive mechanisms as increasingly important while camping.

Prevention

Ross River virus can be easily prevented through small behavioural mechanisms which should be of high importance in tropical areas and during participation of outdoor activities.[6] Firstly, insect repellent should be rigorously used as to prevent bites from insects that specifically include mosquitoes which are vectors that carry the disease. A study in tropical Australia[15] shows a very narrow 95% confidence interval of 0.20–1.00 for a decrease in Ross River virus risk as a result of increased use of insect repellent, suggesting a strong correlation between the two. Following, burning citronella candles are based on the same principle, that it repels insects that are vectors of the virus. Burning such candles also show a strong correlation with decreased Ross River virus risk shown in the same study with a narrow 95% confidence interval of 0.10–0.78. Secondly, wearing light coloured clothing decrease the risk of Ross River virus three-fold.[15] This is again based on the repelling of vectors such as mosquitoes through the use of bright colours. Lastly, high risk areas should be minimised by mechanisms of prevention that are applied within households.[6] For example, screens should be fitted to windows and doors to prevent entry of insects carrying the virus and potential breeding areas such as open water containers or water holding plants should be removed. Therefore, specific climatic environments should be assessed for high risk factors and the appropriate precautions should be taken in response.

Lab research

The study of RRV has been recently facilitated by a mouse model. Inbred mice infected with RRV develop hind-limb arthritis/arthralgia. The disease in mice, similar to humans, is characterised by an inflammatory infiltrate including macrophages which are immunopathogenic and exacerbate disease. Furthermore, recent data indicate that the serum component, C3, directly contributes to disease since mice deficient in the C3 protein do not suffer from severe disease following infection.[16]

Symptoms

Ross River virus can cause multiple symptoms in someone who is infected, the most common being arthritis or joint pain. Other symptoms include a rash on the limbs of the body, which often occurs roughly 10 days after arthritis begins. Lymph nodes may enlarge, most commonly in the arm pits or groin region, and rarely a feeling of 'pins and needles' in the persons hands and feet, but only occurs in a small number of people.[17] The virus also causes moderate symptoms in horses.[18]

The symptoms of Ross River virus are important to recognise for early diagnosis and therefore early treatment. Symptoms have been illustrated in a case report of an infected Thuringian traveller returning from South-East Australia.[19] This case showed flu-like symptoms that include fever, chills, headache and pains in the body. Additionally, joint pain arose in which some joints become swollen and joint stiffness was particularly noticeable. A clinical examination of the infected individual shows a significant decrease of specific antibodies despite the normal blood count levels. A rash is a good indication that is likely to occur but usually disappears after ten days. The symptoms of Ross River virus are important to be aware of so that early treatment can be administered before the virus worsens. The time between catching the disease and experiencing symptoms is anywhere between three days to three weeks, usually it takes about 1–2 weeks. A person can be tested for Ross River virus by a blood test, other illnesses may need to be excluded before diagnosis.[20]

Diagnosis

Testing for Ross River virus should occur in patients who are experiencing acute polyarthritis, tiredness and/or rashes (~90%) with a history of travel within areas prone to infection from the virus.[21] Serology (blood tests) is the appropriate manner by which to diagnose Ross River virus. Within 7 days of infection, the virus produces Immunoglobulin M (IgM) and is a presumptive positive diagnosis. IgM may persist for months or even years and therefore false positives may be triggered by Barmah Forest virus, rubella, Q fever or rheumatoid factor. To completely test for Ross River virus, a second serology test must be conducted 10–14 days after the first. The patient may then be declared positive for Ross River virus infection if there is a 4-fold increase of IgM antibody count.[6]

Ross River fever

Ross River fever is also known as Ross River virus infection or Ross River virus disease. Ross River virus is named after the Ross River in Townsville, which is the place where it was first identified. Ross River fever is the most common mosquito-borne disease in Australia, and nearly 5000 people are reported to be infected with the virus each year.[22]

References

  1. ^ a b 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. p. 887 https://talk.ictvonline.org/ictv/proposals/ICTV%207th%20Report.pdf
  2. ^ Ong OTW, Stephensen EB, Johnson BJ, Old JM (2021). Mosquito-borne viruses and non-human vertebrates in Australia: A review. Viruses. 13, 265. DOI: 10.3390/v13020265
  3. ^ a b c d e f g Harley D, Sleigh A, Ritchie S (2001). "Ross River virus transmission, infection, and disease: a cross-disciplinary review". Clin. Microbiol. Rev. 14 (4): 909–32, table of contents. doi:10.1128/CMR.14.4.909-932.2001. PMC 89008. PMID 11585790.
  4. ^ "Ross River fever". Panbio Diagnostics. Archived from the original on 25 September 2008. Retrieved 29 October 2008.
  5. ^ Scherer WF, Funkenbusch M, Buescher EL, Izumit (1962). "Sagiyama virus, a new group A arthropod-borne virus from Japan. I. Isolation, immunologic classification, and ecologic observations". Am J Trop Med Hyg. 11: 255–268. doi:10.4269/ajtmh.1962.11.255. PMID 14498263.
  6. ^ a b c d Barber, Bridget; Denholm, Justin T.; Spelman, Denis (2009). "Ross river virus". Australian Family Physician. 38 (8): 586–589. PMID 19893779.
  7. ^ "New Zealand first to wipe out the 'Aussie mozzie'". New Zealand Government. 1 July 2010. Retrieved 24 January 2013.
  8. ^ "ARPHS Fact Sheet – Ross River Virus (RRV) Disease" (PDF). Auckland Regional Public Health Service. Retrieved 23 January 2013.
  9. ^ Russell, R.C. (31 January 2007). "Ross River virus: ecology and distribution". Annu Rev Entomol. 47: 1–31. doi:10.1146/annurev.ento.47.091201.145100. PMID 11729067.
  10. ^ a b c d Jardine, A., Neville, P.J., & Lindsay, M. D. (2015). "Proximity to Mosquito Breeding Habitat and Ross River Virus Risk in the Peel Region of Western Australia". Vector-Borne and Zoonotic Diseases. 15 (2): 141–6. doi:10.1089/vbz.2014.1693. PMC 4340642. PMID 25700045.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  11. ^ Government of Western Australia. (17 April 2012). State of land and housing supply. Retrieved from Planning Western Australia: http://online.planning.wa.gov.au/udp/solahspp5/
  12. ^ Peel Development Commission. (2014). Snapshot of Statistics: Peel People. Retrieved from Peel Development Commission: http://www.peel.wa.gov.au/wp-content/uploads/2014/10/PEEL-PEOPLE.pdf
  13. ^ a b Jardine, A., Neville, P. J., Dent, C., Webster, C., & Lindsay, M. D. (2014). "Ross River Virus Risk Associated with Dispersal of Aedes (Ochlerotatus) camptorhynchus (Thomson) from Breeding Habitat into Surrounding Residential Areas: Muddy Lakes, Western Australia". The American Journal of Tropical Medicine and Hygiene. 91 (1): 101–8. doi:10.4269/ajtmh.13-0399. PMC 4080547. PMID 24799370.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  14. ^ a b c Vally, H.; Peel, M.; Dowse, G. K.; Codde, J. P.; Hanigan, I.; Lindsay, M. D. (2012). "Geographic Information Systems used to describe the link between the risk of Ross River virus infection and proximity to the Leschenault estuary, WA". Australian and New Zealand Journal of Public Health. 36 (3): 229–235. doi:10.1111/j.1753-6405.2012.00869.x. PMID 22672028.
  15. ^ a b c Harley, David; Ritchie, Scott; Bain, Chris; Sleigh, Adrian C (2005). "Risks for Ross River virus disease in tropical Australia". International Journal of Epidemiology. 34 (3): 548–555. doi:10.1093/ije/dyh411. PMID 15659466.
  16. ^ Morrison TE, Fraser RJ, Smith PN, Mahalingam S, Heise MT (2007). "Complement contributes to inflammatory tissue destruction in a mouse model of Ross River virus-induced disease". J. Virol. 81 (10): 5132–43. doi:10.1128/JVI.02799-06. PMC 1900244. PMID 17314163.
  17. ^ "Ross River Virus Disease". Better Health Channel. Department of Health, State Government, Victoria. March 2013. Retrieved 15 April 2015.
  18. ^ Kumanomido T, Kamada M, Wada R, Kenemaru T, Sugiura T, Akiyama Y (1988). "Pathogenicity for horses of original Sagiyama virus, a member of the Getah virus group". Vet Microbiol. 17 (4): 367–373. doi:10.1016/0378-1135(88)90050-8. PMID 2847399.
  19. ^ Schleenvoigt, B.T.; Baier, M.; Hagel, S.; Forstner, C.; Kotsche, R.; Pletz, M. W. (2015). "Ross river virus infection in a Thuringian traveller returning from south-east Australia". Infection. 43 (2): 229–230. doi:10.1007/s15010-014-0695-0. PMID 25380568.
  20. ^ "Ross River virus infection – Symptoms, Treatment and Prevention". SA Health.
  21. ^ Fraser, J.R. (12 August 1986). "Epidemic polyarthritis and Ross River virus disease". Clin Rheum Dis. 12 (2): 369–88. doi:10.1016/s0307-742x(21)00556-7. PMID 3026719.
  22. ^ "Ross River Virus – Ross River Fever". Kimberley Australia.