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West Nile Virus – All You Need To Know

What is West Nile Virus?

West Nile Virus is a single-stranded RNA virus that causes West Nile fever. It was discovered in the West Nile district of Uganda in 1937 and was identified in birds (crows and columbiformes) in the Nile delta region in 1953. Before 1997 West Nile Virus was not considered pathogenic for birds. According to the World Health Organisation (WHO), West Nile Virus (WNV) is a member of the flavivirus genus and belongs to the Japanese encephalitis antigenic complex of the family Flaviviridae. WNV is a viral infection that is typically spread by mosquitoes and can cause fatal neurological disease as well as death in people. Cases of WNV are noticed during mosquito season, which starts in the summer and continues through fall. The largest outbreaks of WNV occurred in Greece, Israel, Romania, Russia, and the USA. Outbreak sites are on major birds migratory routes. WNV is sustained in nature in a cycle involving transmission between birds and mosquitoes. Humans, horses and other mammals can also be infected.

Symptoms of West Nile Virus

According to the WHO, about 80% of people who are infected fro WNV will not show any symptoms. Hence, in most cases, infection with WNV is asymptomatic (no symptoms). Approximately 20% of people who become infected with WNV will develop West Nile fever or severe West Nile disease.

It is estimated that approximately 1 in 150 persons infected with the West Nile virus will develop a more severe form of the disease. Severe illness can occur in people of any age; however, people over 50-60 years of age are at greater risk. People with certain major medical conditions, such as cancer, diabetes, hypertension, kidney disease, and people who have received organ transplants, are also at greater risk.

Recovery from severe illness might take several weeks or months. Some effects on the central nervous system might be permanent. About 1 out of 10  people who develop severe illness affecting the central nervous system die.

Diagnosis of West Nile Virus

West Nile virus can be diagnosed by a number of different tests:

Treatment of West Nile Virus

Transmission Cycle of West Nile Virus

WNV is maintained in nature in a mosquito-bird-mosquito transmission cycle. Mosquitoes of the genus Culex are generally considered the main vectors of WNV, in particular, Cx. Pipiens. WNV is maintained in mosquito populations through vertical transmission i.e., adults to eggs.

Birds are the reservoir hosts of WNV. In Europe, Africa, the Middle East, and Asia, mortality in birds, associated with WNV infection, is rare. In striking contrast, WNV is highly pathogenic for birds in the Americas. Members of the crow family (Corvidae) are particularly susceptible, but the virus has been detected in dead and dying birds of more than 250 species. Birds can be infected by a variety of routes other than mosquito bites, and different species may have different potential for maintaining the transmission cycle.

West Nile Virus Transmission Cycle
Image credit to “Centers for Disease Control and Prevention”

Horses, just like humans, are dead-end hosts, meaning that while they become infected, they do not spread the infection. Symptomatic infections in horses are also rare and generally mild but can cause neurologic disease, including fatal encephalomyelitis.

West Nile virus is not spread:

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Prevention of West Nile Virus infection

As there is no human vaccine available for humans, the best and obvious method to reduce the risk of infections is by avoiding mosquito bites. This may be done by getting rid of standing pools of water, such as in old tires, buckets, gutters, and swimming pools. Mosquito repellent, window screens, mosquito nets, by wearing light-colored clothing (long-sleeved shirts and trousers) and by avoiding outdoor activity at peak biting times may also be useful.

Effective prevention of West Nile Virus infections (in humans) depends on the development of comprehensive, integrated mosquito surveillance and control programmes in areas where the virus occurs. Special importance should be to integrated control measures including source reduction (with community participation), water management, chemicals, and biological control methods.

Reducing the risk of animal-to-human transmission. protective covering such as gloves should be worn while handling sick animals or their tissues, and during slaughtering and culling procedures.

Reducing the risk of transmission through blood transfusion and organ transplants. Blood and organ donation restrictions and laboratory testing should be considered especially at the time of the outbreak in the affected areas after assessing the local/regional epidemiological situation.

Since WNV outbreaks in animals precede human cases, the establishment of an active animal health surveillance system to detect new cases in birds and horses is essential in providing early warning for veterinary and human public health authorities. In the Americas, it is important to help the community by reporting dead birds to local authorities.

Vaccines have been developed for horses. Treatment is supportive and consistent with standard veterinary practices for animals infected with a viral agent.

 

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