Mosquito-borne disease

Endemic range of yellow fever in Africa (2005)
Endemic range of yellow fever in South America (2005)

Mosquito-borne diseases or mosquito-borne illnesses are diseases caused by bacterial, viruses or parasites transmitted by mosquitoes. They can transmit disease without being affected themselves.

Diseases transmitted by mosquitoes include: malaria, dengue, filariasis, West Nile virus, chikungunya, yellow fever, Japanese encephalitis, Saint Louis encephalitis, Western equine encephalitis, Eastern equine encephalitis, Venezuelan equine encephalitis, La Crosse encephalitis[1] and Zika fever.

Nearly 700 million people get a mosquito borne illness each year resulting in greater than one million deaths.[1]

Types

Protozoa

The female mosquito of the genus carries (see Plasmodium). Worldwide, malaria is a leading cause of premature mortality, particularly in children under the age of five, with an estimated 207 million cases and more than half a million deaths in 2012, according to the World Malaria Report 2013 published by WHO.

Myiasis

The human botfly (Dermatobia hominis) attacks and uses a mosquito during mid-flight to deliver its eggs and transfer it to a person; the eggs are in the underside of the mosquito vector which is stuck with a special glue. When the mosquito takes a blood meal from its human host, the body heat of the mammalian host melts the glue and the eggs hatch into larvae which feed on human flesh and blood. Other botfly use the same strategy as the human botfly.

Helminthiasis

Some species of mosquito can carry the filariasis worm, a parasite that causes a disfiguring condition (often referred to as elephantiasis) characterized by a great swelling of several parts of the body; worldwide, around 40 million people are living with a filariasis disability.

Virus

The viral diseases yellow fever, dengue fever, Zika fever and chikungunya are transmitted mostly by Aedes aegypti mosquitoes.

Other viral diseases like epidemic polyarthritis, Rift Valley fever, Ross River fever, St. Louis encephalitis, West Nile virus (WNV), Japanese encephalitis, La Crosse encephalitis and several other encephalitic diseases are carried by several different mosquitoes. Eastern equine encephalitis (EEE) and Western equine encephalitis (WEE) occurs in the United States where it causes disease in humans, horses, and some bird species. Because of the high mortality rate, EEE and WEE are regarded as two of the most serious mosquito-borne diseases in the United States. Symptoms range from mild flu-like illness to encephalitis, coma and death.[2]

Viruses carried by arthropods such as mosquitoes or ticks are known collectively as arboviruses. West Nile virus was accidentally introduced into the United States in 1999 and by 2003 had spread to almost every state with over 3,000 cases in 2006.

Other species of Aedes as well as Culex and Culiseta are also involved in the transmission of disease.

Transmission

A mosquito's period of feeding is often undetected; the bite only becomes apparent because of the immune reaction it provokes. When a mosquito bites a human, she injects saliva and anti-coagulants. For any given individual, with the initial bite there is no reaction but with subsequent bites the body's immune system develops antibodies and a bite becomes inflamed and itchy within 24 hours. This is the usual reaction in young children. With more bites, the sensitivity of the human immune system increases, and an itchy red hive appears in minutes where the immune response has broken capillary blood vessels and fluid has collected under the skin. This type of reaction is common in older children and adults. Some adults can become desensitized to mosquitoes and have little or no reaction to their bites, while others can become hyper-sensitive with bites causing blistering, bruising, and large inflammatory reactions, a response known as Skeeter syndrome.

Species

Some viruses tend to be specific to a species and/or genus of mosquito. The following mosquito species transmit disease to humans/animals:

Mosquito Species Infectious Agent Primary Disease Add'tl Disease Location Time of Day
Aedes aegypti YFV, DFV, CFV, ZFV, Bunyamwera virus Yellow Fever, Dengue fever, Chikungunya, Zika fever, Bunyamwera fever microencephaly, arthralgia Mostly <1500 meters elevation, tropics & subtropics, urban Mostly Daytime
Aedes albopictus Dirofilaria immitis Filariasis Yellow Fever, Dengue fever, Chikungunya, Zika fever tropics, subtropics, temperate, urban Mostly Daytime
Aedes canadensis EEEV, WNV West Nile Fever, sleeping sickness
Aedes sollicitans VEEV, EEEV Venezuelan equine encephalitis, sleeping sickness
Aedes vexans Dirofilaria immitis, Myxoma virus, Tahyna virus Filariasis, Myxomatosis Encephalitis or Meningitis
Anopheles gambiae(6) Plasmodium falciparum, Bwamba Fever Virus, Tete virus, O'nyong'nyong virus, Semliki Forest Virus Malaria Bwamba Fever Underdeveloped or resistant areas Mostly Night
Anopheles fenustus Bwamba Fever Virus, O'nyong'nyong virus Bwamba Fever, Lymphadenopathy
Coquillettidia perturbans EEEV, WNV, Jamestown Canyon virus sleeping sickness, Encephalitis Jamestown Canyon fever mammals
Culex annulirostris Wuchereria bancrofti, MVEV, Ross River virus, Barmah Forest virus, Kunjin virus, JEV encephalitis, Ross River fever, polyarthritis, arthralgia, Meningoencephalitis, Japanese encephalitis standing water incl. brackish dusk and daytime spring to summer
Culex annulus Sindbis virus Pogosta disease
Culex pipiens West Nile Virus, JEV, WEEV, Plasmodium relictum, Sindbis virus Meningitis, Urticaria, avian malaria, West Nile encephalitis, Western equine encephalitis, Pogosta disease Japanese encephalitis continental climate
Culex quinquefasciatus Wuchereria bancrofti, Saint Louis encephalitis virus, Filariasis, Saint Louis encephalitis Lymphatic filariasis, Tropical eosinophilia
Culex sitiens JEV, Brugia malayi, Plasmodium juxtanucleare Lymphatic filariasis, avian malaria Japanese encephalitis
Culex tritaeniorhynchus JEV, Rift Valley Virus, Banna virus Japanese encephalitis, Rift Valley Fever, Banna Fever large animals & humans biphasic, one day one night peak, varied
Culex vishnui JEV Japanese encephalitis
Culex univittatus Sindbis virus Pogosta disease
Culiseta Jamestown Canyon virus Meningoencephalitis
Haemagogus leucocelaenus, Haemagogus janthinomys, Haemagogus s. spegazzini YFV, Mayaro Virus, Ilheus virus Yellow fever, Mayaro virus disease
Mansonia pseudotitillans Saint Louis encephalitis virus Saint Louis encephalitis Rift Valley fever
Ochlerotatus cantator West Nile Virus, EEEV sleeping sickness, Encephalitis marshes and pools
Ochlerotatus triseriatus La Crosse virus (LACV) La Cross encephalitis tree holes
Psorophora howardii West Nile Virus West Nile Fever
This list is incomplete; you can help by expanding it.

Mechanism

Mosquitos carrying such arboviruses stay healthy because their immune systems recognizes the virions as foreign particles and "chop off" the virus's genetic coding, rendering it inert. Human infection with a mosquito-borne virus occurs when a female mosquito bites someone while its immune system is still in the process of destroying the virus's harmful coding.[3] It is not completely known how mosquitoes handle eukaryotic parasites to carry them without being harmed. Data has shown that the malaria parasite Plasmodium falciparum alters the mosquito vector's feeding behavior by increasing frequency of biting in infected mosquitoes, thus increasing the chance of transmitting the parasite.[4]

Prevention

When a mosquito bites, she also injects saliva and anti-coagulants into the blood which may also contain disease-causing viruses or other parasites. This cycle can be interrupted by killing the mosquitoes, isolating infected people from all mosquitoes while they are infectious or vaccinating the exposed population. All three techniques have been used, often in combination, to control mosquito transmitted diseases. Window screens, introduced in the 1880s, were called "the most humane contribution the 19th century made to the preservation of sanity and good temper."[5]

Epidemiology

Mosquitoes are estimated to transmit disease to more than 700 million people annually in Africa, South America, Central America, Mexico and much of Asia with millions of resulting deaths. In Europe, Russia, Greenland, Canada, the United States, Australia, New Zealand, Japan and other temperate and developed countries, mosquito bites are now mostly an irritating nuisance but still cause some deaths each year.[6]

Historically, before mosquito transmitted diseases were brought under control, they caused tens of thousands of deaths in these countries and hundreds of thousands of infections.[7] Mosquitoes were shown to be the method by which yellow fever and malaria were transmitted from person to person by Walter Reed, William C. Gorgas and associates in the U.S. Army Medical Corps first in Cuba and then around the Panama Canal in the early 1900s.[8][9] Since then other diseases have been shown to be transmitted the same way.

Mosquitoes are a perfect example of one of the many organisms that can host diseases. Of the known 14,000 infectious microorganisms, 600 are shared between animals and humans. Mosquitoes are known to carry many infectious diseases from several different classes of microorganisms, including viruses and parasites. Mosquito-borne illnesses include malaria, West Nile virus, elephantiasis, dengue fever, yellow fever etc. These infections are normally rare to certain geographic areas. For instance dengue hemorrhagic fever is a viral, mosquito borne illness usually regarded only as a risk in the tropics. However, cases of dengue fever have been popping up in the U.S. along the Texas-Mexican border where it has never been seen before. In 2015 it was also reported that, due to climate change, mosquitoes had started to spread historically rare diseases to Europe - malaria to Greece, West Nile virus to eastern Europe and chikungunya to Italy and France.[10]

References

  1. 1 2 Caraballo, Hector (May 2014). "Emergency Department Management Of Mosquito-Borne Illness: Malaria, Dengue, And West Nile Virus". Emergency Medicine Practice 16 (5).
  2. Mosquito-borne diseases, infectious disease information, NCID, CDC
  3. Susannah F Locke (1 December 2008). "Bug vs Bug: How do mosquitoes survive deadly viruses unscathed?".
  4. Koella, J.C.; Sorensen; Anderson (7 May 1998). "The malaria parasite, Plasmodium falciparum, increases the frequency of multiple feeding of its mosquito vector, Anopheles gambiae". Proceedings of the Royal Society B 265 (1398): 763–768. doi:10.1098/rspb.1998.0358. Retrieved 2 May 2013.
  5. "History of and Reasons for Mosquito Control in New Jersey Chemigation works in combination with existing irrigation systems: The Fertibug case studies show control relevance with a system that will deliver pesticides that modify the growth cycle of mosquitoes in both the larvae and adult stages. System attaches directly to a sprinkler system and uses the high pressure and vast reach of the irrigation system’s water distribution means to evenly and continuously disperse liquid insecticides in minute quantities―think parts per million PPM. Immediate effect will be noticed with a diminished mosquito population.". Archived from the original on 2 November 2000. line feed character in |title= at position 58 (help)
  6. "Mosquitoes and Mosquito Repellents: A Clinician's Guide"; by Mark S. Fradin: Annals of Internal Medicine, 1 June 1998. 128:931-940. Retrieved 10 July 2006.
  7. The American Plague, by Molly Caldwell Crosby, p. 12, Berkley Books, New York, 2005, ISBN 0-425-21202-5
  8. The Path Between the Seas: The Creation of the Panama Canal 1870-1914, by David McCullough, 1977, Simon and Schuster, ISBN 0-671-24409-4
  9. The American Plague, by Molly Caldwell Crosby, pp. 100-202, Berkley Books, New York, 2005, ISBN 0-425-21202-5
  10. (23 March 2015) Mosquitoes 'could bring exotic diseases to UK' BBC News, Health, Retrieved 23 March 2015
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