As of 15 February 2005, WHO has received
reports of 61 deaths of pneumonic plague in Ituri district, Oriental province
in the northern part of the country (see map below). The total number of
cases is still not known. Preliminary results from rapid diagnostic tests
in the area confirm pneumonic plague, and the cases had clinical features
compatible with this disease. Forty samples have been taken and will be
tested by culture and serology at the Institut de la Recherche Biomedicale,
Kinshasa. No cases of bubonic plague have been reported to date.
The cases have occurred in workers in
a diamond mine in Zobia where c. 7000 people work. The mine was re-opened
on 16 December 2004 and the first case occurred on 20 December.
A team from Médecins sans Frontières (Belgium and Switzerland), Medair, WHO and Ministry of Health have been in the area to assess the situation. An additional multi-disciplinary team will be leaving for the Democratic Republic of the Congo on 19 February. If humanitarian access is possible given the security concerns in the area, the team will go to the affected area to provide technical support in case management and treatment of cases, intensive surveillance and tracing of possible contacts and further epidemiological investigations.
WHO plague fact sheet
Overview
Plague is a zoonotic disease circulating mainly among small animals and their fleas. The bacteria Yersinia pestis can also infect humans. It is transmitted between animals and humans by the bite of infected fleas, direct contact, inhalation and rarely, ingestion of infective materials. Plague can be a very severe disease in people, with a case-fatality ratio of 30%-60% if left untreated.
Infected persons usually start with "flu-like" symptoms after an incubation period of 3-7 days. Patients typically experience the sudden onset of fever, chills, head and body-aches and weakness, vomiting and nausea. Clinical plague infection manifests itself in three forms depending on the route of infection: bubonic, septicaemic and pneumonic.
- Bubonic form is the most common form of plague resulting from the bite of an infective flea. Plague bacillus enters the skin from the site of the bite and travels through the lymphatic system to the nearest lymph node. The lymph node then becomes inflamed because the plague bacteria, Yersinia pestis or Y. pestis, will replicate here in high numbers. The swollen lymph node is called a "bubo" which is very painful and can become suppurated as an open sore in advanced stage of infection;
- Septicaemic form of plague occurs when infection spreads directly through the bloodstream without evidence of a "bubo". More commonly advanced stages of bubonic plague will result in the presence of Y. pestis in the blood. Septicaemic plague may result from flea bites and from direct contact with infective materials through cracks in the skin.
- Pneumonic form of plague is the most virulent and least common form of plague. Typically, pneumonic form is due to a secondary spread from advanced infection of an initial bubonic form. Primary pneumonic plague results from inhalation of aerosolized infective droplets and can be transmitted from human to human without involvement of fleas or animals. Untreated pneumonic plague has a very high case-fatality ratio.
Plague is endemic in many countries in Africa, in the former Soviet Union, the Americas and Asia. In 2003, 9 countries reported 2118 cases and 182 deaths. 98.7% of those cases and 98.9% of those deaths were reported from Africa. Today the distribution of plague coincides with the geographical distribution of its natural foci.
Treatment
Rapid diagnosis and treatment is essential to reduce complications and fatality. Effective treatment methods enable almost all plague patients to be cured if diagnosed in time. These methods include the administration of antibiotics and supportive therapy.
Prevention
The objective of preventive measures is to inform people to be aware of the areas where zoonotic plague is active and to take precautions against flea bites and handling carcass while in plague-endemic areas. People should avoid having direct contact with infective tissues, or from being exposed to patients with pneumonic plague.
Case recognition, medical intervention and field investigation
Identify the most likely source of infection in the area where the human case(s) was exposed, typically looking for clustered areas with large numbers of small animal die-offs. Institute appropriate sanitation and control measures to stop the exposure source;
Ensure dissemination of information concerning areas with active plague transmission, the clinical features of plague and the case definition to health workers;
Verify that patients have been placed on appropriate antibiotic treatment and that local supplies of antibiotics are adequate to handle further cases;
Isolate pneumonic plague patients;
Obtain specimens for laboratory confirmation.
Laboratory testing
Diagnosis and confirmation of plague requires laboratory testing. Recovery and identification of Y. pestis culture from a patient sample is optimum for confirmation. Depending on the presentation of the form on plague: bubo aspirates, blood, and sputum are the most appropriate specimens for rapid testing and culture. Serum taken during the early and late stages of infection can be examined to confirm infection. Rapid dipstick tests have been validated for field use to quickly screen for Y. pestis antigen in patients. Specimens should be collected and forwarded to laboratories for plague testing.
Vaccination
Plague vaccines at one time were widely used but have not proven to be an approach that could prevent plague effectively. Vaccines are not recommended for immediate protection in outbreak situations. Vaccination is only recommended as a prophylactic measure for high-risk groups (e.g. laboratory personnel who are constantly exposed to the risk of contamination).
Surveillance and control
Conduct investigation to identify animals and flea species that are implicated in the plague enzootic cycle in the region and develop a programme on environmental management to limit its potential spread.
Active long-term surveillance of zoonotic foci and rapid response to reduce exposure during epizootic outbreaks have been successful in reducing human plague.
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