Lassa fever
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Lassa virus | ||||||||
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Virus classification | ||||||||
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Lassa Fever Classification and external resources |
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ICD-10 | A96.2 |
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ICD-9 | 078.8 |
DiseasesDB | 7272 |
MeSH | D007835 |
Lassa fever is an acute viral hemorrhagic fever first described in 1969 in the town of Lassa, in Borno State, Nigeria located in the Yedseram river valley at the south end of Lake Chad.[1] Clinical cases of the disease had been known for over a decade earlier but not connected with this viral pathogen. The infection is endemic in West African countries, and causes 300-500,000 cases annually with ~5,000 deaths.[2] Outbreaks of the disease have been observed in Nigeria, Liberia, Sierra Leone, Guinea, and the, Central African Republic, but it is believed that human infections also exist in Democratic Republic of the Congo, Mali, and Senegal.[citation needed] Its primary animal host is the Natal Multimammate Mouse (Mastomys natalensis), an animal indigenous to most of Sub-Saharan Africa.[3] Although the rodents are also a source of protein for peoples of these areas, the virus is probably transmitted by the contact with the feces and urine of animals accessing grain stores in residences.[3]
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[edit] Cause
Lassa fever is caused by the Lassa virus, a member of the Arenaviridae family; it is an enveloped, single-stranded, bisegmented RNA virus.[2]
Replication for Lassa virus is very rapid, while also demonstrating temporal control in replication. There are two genome segments. The first step involved is making mRNA copies of the - sense genome. This ensures that there is adequate proteins, which are required for replication. The N and L proteins are made from the mRNA produced. The - sense genome then makes viral complementary RNA (vcRNA) copies of itself which are + sense. The vcRNA is a template for producing - sense progeny but mRNA is also synthesized from it. The mRNA synthesized from vcRNA translate the G (spike) proteins and Z proteins. Thus, with this temporal control, the spike proteins are produced last, making the infection further undetected by the host immune system.
Lassa virus will infect almost every tissue in the human body. It starts with the mucosa, intestine, lungs and urinary system, and then progresses to the vascular system.
[edit] Pathophysiology
Infection in humans typically occurs via exposure to animal excrement through the respiratory or gastrointestinal tracts. Inhalation of tiny particles of infective material (aerosol) is believed to be the most significant means of exposure. It is possible to acquire the infection through broken skin or mucous membranes that are directly exposed to infective material. Transmission from person to person has also been established, presenting a disease risk for healthcare workers. Frequency of transmission via sexual contact has not been established.
In 80% of cases the disease is inapparent, but in the remaining 20% it takes a complicated course. It is estimated that the virus is responsible for about 5,000 deaths annually. The fever accounts for up to ⅓ of deaths in hospitals within the affected regions and 10 to 16% of total cases.
After an incubation period of six to twenty-one days, an acute illness with multiorgan involvement develops. Non-specific symptoms include fever, facial swelling, and muscle fatigue, as well as conjunctivitis and mucosal bleeding. The other symptoms arising from the affected organs are:
- Gastrointestinal tract
- nausea
- vomiting (bloody)
- diarrhea (bloody)
- stomach ache
- constipation
- dysphagia (difficulty swallowing)
- hepatitis
- Cardiovascular system
- pericarditis
- hypertension
- hypotension
- tachycardia (abnormally high heart rate)
- Respiratory tract
- cough
- chest pain
- dyspnoea
- pharyngitis
- pleuritis
- Nervous system
- encephalitis
- meningitis
- unilateral or bilateral hearing deficit
- seizures
Clinically, Lassa fever infections are difficult to distinguish from other viral hemorrhagic fevers such as Ebola and Marburg, and from more common febrile illnesses such as malaria.
The virus is excreted in urine for three to nine weeks and in semen for three months.
[edit] Treatment
All persons suspected of Lassa fever infection should be admitted to isolation facilities and their body fluids and excreta properly disposed of.
Early and aggressive treatment using Ribavirin was pioneered by Joe McCormick in 1979. After extensive testing, it was determined that early administration is critical to success. Additionally, Ribavirin is almost twice as effective when given intravenously as when taken by mouth.[4] Ribavirin is a prodrug which appears to interfere with viral replication by inhibiting RNA-dependent nucleic acid synthesis, although the precise mechanism of action is disputed.[5] The drug is relatively inexpensive, but the cost of the drug is still very high for many of those in poverty-stricken West African states. Fluid replacement, blood transfusion and fighting hypotension are usually required. Intravenous interferon therapy has also been used.
When Lassa fever infects pregnant women late in their third trimester, it is necessary to abort the pregnancy for the mother to have a good chance of survival.[6] This is because the virus has an affinity for the placenta and other highly vascular tissues. The fetus has only a one in ten chance of survival no matter what course of action is taken; hence focus is always on saving the life of the mother. Following abortion, women should receive the same treatment as other Lassa fever patients.
Siga Technologies is developing an antiviral drug that has been shown effective in treating experimentally infected guinea pigs. In a study conducted at the U.S. Army Medical Research Institute of Infectious Diseases (USAMRIID), treatment with ST-193 once a day for 14 days resulted in significant reduction in mortality (71% of the animals survived at the low dose), whereas all untreated animals and those treated with ribavirin died within 20 days of the infection.[7]
[edit] Prognosis
About 15%-20% of hospitalized Lassa fever patients will die from the illness. It is estimated that the overall mortality rate is 1%, however during epidemics mortality can climb as high as 50%. The mortality rate is greater than 80% when it occurs in pregnant women during their third trimester; fetal death also occurs in nearly all those cases. Abortion decreases the risk of death to the mother.
Thanks to treatment with Ribavirin, fatality rates are continuing to decline. Work on a vaccine is continuing, with multiple approaches showing positive results in animal trials.
[edit] Epidemiology
Lassa virus is zoonotic (transmitted from animals), in that it spreads to man from rodents, specifically multi-mammate rats (Mastomys natalensis). This is probably the most common rodent in equatorial Africa, ubiquitous in human households and eaten as a delicacy in some areas.[citation needed] In these rats infection is in a persistent asymptomatic state. The virus is shed in their excreta (urine and feces), which can be aerosolized. In fatal cases, Lassa fever is characterized by impaired or delayed cellular immunity leading to fulminant viremia.
The dissemination of the infection can be assessed by prevalence of antibodies to the virus in populations of:
- Sierra Leone 8–52%
- Guinea 4–55%
- Nigeria approx. 21%
Like other hemorrhagic fevers, Lassa fever can be transmitted directly from one human to another. It can be contracted by an airborne route or with direct contact with infected human blood, urine, or semen. Transmission through breast milk has also been observed.
[edit] Lab tests
There is a range of laboratory investigations that are performed to diagnose the disease and assess its course and complications. ELISA test for antigen and IgM antibodies gives 88% sensitivity and 90% specificity for the presence of the infection. Other laboratory findings in Lassa fever include lymphopenia (low white blood cell count), thrombocytopenia (low platelets), and elevated aspartate aminotransferase (AST) levels in the blood.
[edit] Prevention
Control of the Mastomys rodent population is impractical, so measures are limited to keeping rodents out of homes and food supplies, as well as maintaining effective personal hygiene. Gloves, masks, laboratory coats, and goggles are advised while in contact with an infected person.
No vaccine against Lassa fever is currently available, though development is underway. The Mozambique virus closely resembles Lassa fever, while lacking its deadly effects. This virus is being considered for possible use as a vaccine.
Researchers at the USAMRIID facility, where military biologists study infectious diseases, have a promising vaccine candidate.[8] They have developed a replication-competent vaccine against Lassa virus based on recombinant vesicular stomatitis virus vectors expressing the Lassa virus glycoprotein. After a single intramuscular injection, test primates have survived lethal challenge, while showing no clinical symptoms.[9]
[edit] References
- ^ Frame JD, Baldwin JM, Gocke DJ, Troup JM (1970). "Lassa fever, a new virus disease of man from West Africa. I. Clinical description and pathological findings". Am. J. Trop. Med. Hyg. 19 (4): 670-6. PMID 4246571.
- ^ a b Ogbu O, Ajuluchukwu E, Uneke CJ (2007). "Lassa fever in West African sub-region: an overview". Journal of vector borne diseases 44 (1): 1-11. PMID 17378212.
- ^ a b Werner, Dietrich, editor (2004). Biological Resources and Migration. Springer, 363. ISBN 978-3540214700.
- ^ Fisher-Hoch SP, McCormick JB (2004). "Lassa fever vaccine". Expert review of vaccines 3 (2): 189-97. doi: . PMID 15056044.
- ^ Crotty S, Cameron C, Andino R (2002). "Ribavirin's antiviral mechanism of action: lethal mutagenesis?". J. Mol. Med. 80 (2): 86-95. doi: . PMID 11907645.
- ^ Price ME, Fisher-Hoch SP, Craven RB, McCormick JB (1988). "A prospective study of maternal and fetal outcome in acute Lassa fever infection during pregnancy". BMJ 297 (6648): 584–7. PMID 3139220.
- ^ "SIGA Passes First Hurdle with Lassa Fever Antiviral ST-193". Press release.
- ^ Preston, Richard. 2002 The Demon In The Freezer. Random House, Inc.
- ^ Geisbert TW, Jones S, Fritz EA, et al (2005). "Development of a new vaccine for the prevention of Lassa fever". PLoS Med. 2 (6): e183. doi: . PMID 15971954.
[edit] Further reading
- Theiler, Max and Downs, W. G. 1973. The Arthropod-Borne Viruses of Vertebrates: An Account of The Rockefeller Foundation Virus Program 1951-1970. Yale University Press.
[edit] External links
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