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Guinea has recorded the first known case of the Marburg virus, a lethal cousin to Ebola, the UN’s World Health Organization (WHO) says.
Here is a factfile on the disease (source: WHO, US Centers for Disease Control and Prevention).
What is Marburg?
Marburg virus is a highly dangerous pathogen that causes haemorrhagic fever.
According to past outbreaks, the average fatality rate is 50 percent, in a range of 24-88 percent.
The virus is part of the so-called filovirus family to which the Ebola virus also belongs.
It takes its name from the German city of Marburg, where it was first identified in 1967, in a lab where workers had been in contact with infected green monkeys that had been imported from Uganda.
Two other outbreaks occurred at the same time in Frankfurt, also in Germany, and in Belgrade, then the capital of Yugoslavia, now Serbia. Seven people died.
How is it transmitted?
The natural “reservoir,” or host, of the Marburg virus is the African fruit bat.
The cave-dwelling mammals carry the virus but do not fall sick from it, and can hand the virus to primates in close proximity, including humans — one suspected pathway is the killing or butchering of infected bats for food.
Human-to-human transmission then occurs through contact with blood or other bodily fluids, or contact with surfaces such as bedding or clothing that are contaminated with these fluids. Some infections have happened accidentally in the lab, through needle wounds.
What are the symptoms?
The virus takes between two and 21 days to incubate, leading to abrupt symptoms of high fever, severe headaches, muscular pain, vomiting and diarrhoea — symptoms that can make Marburg difficult to diagnose initially, as they are similar to diseases such as typhoid and malaria.
Haemorrhagic episodes typically follow between five and seven days later, with blood in the vomit and faeces and bleeding from the nose, gums and vagina. In fatal cases, death occurs most often between eight and nine days.
What treatments are available?
There are no vaccines or antiviral treatments for Marburg disease. However, rehydration with oral or intravenous techniques improves survival and experimental use of monoclonal antibody drugs has been promising.
This is why it is crucial to stamp out the disease from the outset, say experts.
“You have to step up surveillance, identify all con…