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Emergencies preparedness, response

Marburg virus disease

Uganda ends outbreak of Marburg virus disease

Treatment unit for Marburg virus disease in Kween, Uganda
WHO/T. Strecker

8 December 2017 – Uganda has successfully controlled an outbreak of Marburg virus disease and prevented its spread only weeks after it was first detected.

66顺彩票appWithin 24 hours of being informed by Ugandan health authorities in early October, WHO deployed a rapid response team to the remote mountainous area. The Organization also released US$ 623 000 from its Contingency Fund for Emergencies to finance immediate support and scale up of the response.

Health workers urged to work with communities to stop Marburg virus disease


4 November 2017 - As the Marburg virus disease continues to unfold in Kween district, eastern Uganda, frontline health workers battling the outbreak have been urged to nurture local capacity to be able to respond to the current and future outbreaks.

“Community engagement is the cornerstone of emergency response. Work with the communities to build their capacity for success and sustainability,” said Dr Zabulon Yoti, WHO Technical Coordinator for Emergencies, Regional Office for Africa.

WHO supports containment of rare virus on Uganda-Kenya border


20 October 2017 - WHO is working to contain an outbreak of Marburg virus disease that has appeared in eastern Uganda on the border with Kenya. The Ministry of Health has sent a rapid response team to the area supported by staff from WHO, the Centers for Disease Control and Prevention (CDC) and the African Field Epidemiology Network (AFNET).

66顺彩票app WHO is providing medical supplies, guidance on safe and dignified burials, and has released USD 500 000 from its Contingency Fund for Emergencies to finance immediate response activities.

WHO/P. Formenty

Marburg virus disease is a severe and highly fatal disease caused by a virus from the same family as the one that causes Ebola virus disease. These viruses are among the most virulent pathogens known to infect humans. Both diseases are rare, but have a capacity to cause dramatic outbreaks with high fatality.

66顺彩票app Two large outbreaks that occurred simultaneously in Marburg and Frankfurt in Germany, and in Belgrade, Serbia, in 1967, led to the initial recognition of the Marburg virus disease. Subsequently, outbreaks and sporadic cases have been reported in Angola, Democratic Republic of the Congo, Kenya, South Africa and Uganda.

Initially, human infection with Marburg virus disease results from prolonged exposure to mines or caves inhabited by Rousettus bat colonies.
Marburg spreads through human-to-human transmission via direct contact (through broken skin or mucous membranes) with the blood, secretions, organs or other bodily fluids of infected people, and with surfaces and materials (e.g. bedding, clothing) contaminated with these fluids.

The incubation period (interval from infection to onset of symptoms) varies from 2 to 21 days.
Illness caused by Marburg virus begins abruptly, with high fever, severe headache and severe malaise. Muscle aches and pains are a common feature. Severe watery diarrhoea, abdominal pain and cramping, nausea and vomiting can begin on the third day. Diarrhoea can persist for a week. The appearance of patients at this phase has been described as showing “ghost-like” drawn features, deep-set eyes, expressionless faces, and extreme lethargy. In the 1967 European outbreak, non-itchy rash was a feature noted in most patients between 2 and 7 days after onset of symptoms.

Many patients develop severe haemorrhagic manifestations between 5 and 7 days, and fatal cases usually have some form of bleeding, often from multiple areas. Fresh blood in vomitus and faeces is often accompanied by bleeding from the nose, gums, and vagina. Spontaneous bleeding at venepuncture sites (where intravenous access is obtained to give fluids or obtain blood samples) can be particularly troublesome. During the severe phase of illness, patients have sustained high fevers. Involvement of the central nervous system can result in confusion, irritability, and aggression. Orchitis (inflammation of one or both testicles) has been reported occasionally in the late phase of disease (15 days).

In fatal cases, death occurs most often between 8 and 9 days after symptom onset, usually preceded by severe blood loss and shock.

It can be difficult to clinically distinguish MVD from other infectious diseases such as malaria, typhoid fever, shigellosis, meningitis and other viral haemorrhagic fevers. Confirmation that symptoms are caused by Marburg virus infection are made using the following diagnostic methods:

  • 1. antibody enzyme-linked immunosorbent assay (ELISA);
  • 2. antigen detection tests;
  • 3. serum neutralization tests;
  • 4. reverse-transcriptase polymerase chain reaction (RT-PCR) assay; and
  • 5. virus isolation by cell culture

Samples collected from patients are an extreme biohazard risk; laboratory testing on non-inactivated samples should be conducted under maximum biological containment conditions. All biological specimens should be packaged using the triple packaging system when transported nationally and internationally.

Supportive care – rehydration with oral or intravenous fluids – and treatment of specific symptoms, improves survival. There is as yet no proven treatment available for Marburg virus disease. However, a range of potential treatments including blood products, immune therapies and drug therapies are currently being evaluated.

Good outbreak control relies on applying a package of interventions, namely case management, surveillance and contact tracing, a good laboratory service, safe and dignified burials, and social mobilization. Community engagement is key to successfully controlling outbreaks. Raising awareness of risk factors for Marburg infection and protective measures that individuals can take is an effective way to reduce human transmission.

Healthcare workers should always take standard precautions when caring for patients, regardless of their presumed diagnosis. These include basic hand hygiene, respiratory hygiene, use of personal protective equipment (to block splashes or other contact with infected materials), safe injection practices and safe and dignified burial practices.

Technical information

General information

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