Vidyya Medical News Servicesm
Vidyya, from the Sanskrit "vaidya," a practitioner who has come to understand the science of life.

Volume 1 Published - 14:00 UTC    08:00 EST    21-September-2000      
Issue 161 Next Update - 14:00 UTC 08:00 EST    22-September-2000      

Vidyya Home  Vidyya

Home Of Our Sponsor, Vidyya.  Vidyya. Home

Vidyya Archives  Vidyya Archives

Search Vidyya  Search Vidyya

Visit Our Library  Ex Libris

Subscribe To Our News Service  Subscriptions

All About Us  About Vidyya



















Back To Vidyya Fact Sheet

Rift Valley Fever

Rift Valley Fever (RVF) is a zoonosis (a disease which primarily affects animals, but occasionally causes disease in humans). RVF may cause severe disease in both animals and humans, leading to a high morbidity and mortality, and exacting substantial economic costs from loss of livestock. Since 1930, when the virus was first isolated during an investigation into an epidemic amongst sheep on a farm in the Rift Valley of Kenya, there have been damaging outbreaks in sub-Saharan and North Africa. In 1997-98, there was been a major outbreak in Kenya and Somalia, and reports of disease from Mauritania. A wide variety of mosquitoes are possible vectors for the RVF virus (cf.: greater detail below). There is, therefore, a potential for epizootics (epidemics amongst animals) and associated human epidemics consequent on the introduction of the virus into a new area. This has often been demonstrated in the past and remains a concern.

 

The Virus, the Reservoirs, and the Vectors

The virus which causes RVF is a member of the Phlebovirus genus, one of the 5 genera in the family Bunyaviridae. It is primarily spread amongst animals by the bite of infected mosquitoes. A variety of mosquitoes may act as vector for transmission of the RVF virus; in different regions a different species of mosquito may prove to be the predominant vector. In addition, the various vector species play differing roles in sustaining transmission of the virus. Aedes mosquitoes may acquire the virus from feeding on infected animals, and are capable of trans-ovarial transmission (transmission of the virus from infected female mosquitoes to offspring via eggs), so new generations of mosquitoes may hatch, already infected, from their eggs. This provides a durable mechanism for maintaining the virus in nature, as the eggs of these mosquitoes may survive for periods up to several years in dry conditions. During periods of inundation of larval habitats by rainfall, for example, in the rainy season, the eggs will hatch, and the mosquito population will increase and spread the virus to the animals on which they feed. Previously uninfected mosquitoes will feed on infected, viraemic (virus circulating in the bloodstream), animals and thus amplify and perpetuate the outbreak by transmitting the virus to the animals on which they subsequently feed. Many types of animals may be infected with RVF, and disease may be severe in many domesticated animals including cattle, sheep, camels and goats, although sheep appear to be more susceptible than cattle and goats are less susceptible. Exotic breeds, more recently introduced into an endemic area, fare worse than breeds long adapted to local conditions. Animals of different ages also differ in their susceptibility to severe illness: over 90% of lambs infected with RVF die, whereas mortality amongst adult sheep can be as low as 10%. The abortion rate amongst pregnant, infected ewes is almost 100%. An epizootic of RVF is usually first manifested as a wave of unexplained abortion amongst livestock. This may be considered the sentinel event, heralding the epidemic to follow.

 

Transmission to Humans

During epizootics, people may become infected with RVF either by being bitten by infected mosquitoes, or through contact with the blood, body fluids or organs of infected animals. Such contact may occur while involved in the care or slaughtering of infected animals, or, possibly, from the ingestion of raw milk. The virus may infect by entering either through inoculation (e.g., if the skin is broken, or through a wound from an infected knife), or it may be inhaled as an aerosol. The aerosol mode of transmission has also led to infection in laboratory workers.

 

Clinical Features

The incubation period (interval from infection to onset of symptoms) of RVF varies from two to six days. There then follows an influenza-like illness, with sudden onset of fever, headache, myalgia (muscle pain) and backache. Some patients also develop neck stiffness, photophobia (the patient finds exposure to light uncomfortable) and vomiting, and in these patients the disease may be mistaken for meningitis in the early stages. The symptoms of RVF usually last from four to seven days, after which time the immune response to infection becomes detectable with the appearance of IgM and IgG antibodies, and the disappearance of circulating virus from the bloodstream.

A small proportion of patients develops a much more severe disease, and this generally appears as one of several recognizable syndromes. The fever and other symptoms described above may appear in association with eye disease, which characteristically manifests itself in retinal lesions. When the lesions are in the macula, some degree of permanent visual loss will result. Another syndrome manifests itself with acute neurological disease, as meningoencephalitis (inflammation of the brain and of the tissue surrounding it). The onset of these two syndromes is usually one to three weeks after the first symptoms. RVF may also manifest itself as haemorrhagic fever. Two to four days after the onset of illness, the patient shows evidence of severe liver disease, with jaundice and haemorrhagic phenomena, such as vomiting blood, passing blood in the faeces, developing a purpuric rash (a rash caused by bleeding in the skin), and bleeding from the gums. Patients with the RVF-haemorrhagic fever syndrome may remain viraemic for up to 10 days. The proportion of patients developing these three types of complications is about 0.5-2% for eye disease, and less than 1% for meningoencephalitis and for the haemorrhagic fever syndrome. Most fatalities occur in patients who have developed one of these complications. The case-fatality rate for patients developing haemorrhagic disease is high – approximately 50%, whereas death in those with only ocular disease or meningoencephalitis is uncommon. The total case fatality rate has varied widely in the various documented epidemics, but, overall, is less than 1%.

 

Diagnosis and Treatment

The diagnosis of acute RVF may be reached by several approaches. Serological tests such as enzyme-linked immunoassay (the "ELISA" or "EIA" methods) may demonstrate the presence of specific IgM antibodies to the virus. The virus itself may be detected in blood or tissues by a variety of techniques including virus culture, antigen detection tests, and PCR, a molecular method for detecting the viral genome.

The antiviral drug ribavirin has been shown to inhibit viral growth in experimental systems, but has not been evaluated in the clinical setting. Most human cases of RVF are relatively mild and of short duration, so will not require any specific treatment. For the more severe cases, the mainstay of treatment is general supportive therapy.

 

Prevention and Control

Rift Valley fever can be prevented by a sustained program of animal vaccination. Both live, attenuated, and killed vaccines have been developed for veterinary use. The live vaccine requires only one dose and produces long-lived immunity, but the presently-available vaccine may cause abortion if given to pregnant animals. The killed vaccines do not cause these unwanted effects, but multiple doses must be given to produce protective immunity. This may prove problematic in endemic areas. An inactivated vaccine has been developed for human use. This vaccine is not licensed and is not commercially available but has been used experimentally to protect veterinary and laboratory personnel at high risk of exposure to RVF. Other candidate vaccines are under investigation.

The risk of transmission from infected blood or tissues exists for people working with infected animals or people during an outbreak. Gloves and other appropriate protective clothing should be worn, and care taken when handling sick animals or their tissues. Healthcare workers looking after patients with suspected or confirmed RVF should employ universal precautions when taking and processing specimens from patients. Hospitalized patients should be nursed using barrier techniques. As noted above, laboratory workers are at risk, so samples taken for diagnosis from suspected cases (human and animal) of RVF should be handled by trained staff and processed in suitably equipped laboratories.

Other approaches to the control of disease involve protection from and control of the mosquito vectors. Personal protection is important and effective. Where appropriate individuals should wear protective clothing, such as long shirts and trousers, use bednets and insect repellent, and avoid outdoor activity at peak biting times of the vector species. Measures to control mosquitoes during outbreaks, e.g., use of insecticides, are effective if conditions allow access to mosquito breeding sites.

New systems which monitor the variations in climatic conditions are being applied to give advance warning of impending outbreaks by signalling the events which may predictably lead to increases in mosquito numbers. These will allow authorities to implement measures to avert the threatened epidemic.

 


Vidyya. Home |  Ex Libris |  Vidyya  | 
Subscription Information |  About Vidyya |  Vidyya Archives | 

Editor: Susan K. Boyer, RN
© Vidyya. All rights reserved.