Vector Control in Disaster Situations

Natural disasters (hurricanes, floods, earthquakes and volcanic eruptions) can contribute to the transmission of some diseases provided the causative agent is already in the environment. Rapid changes in the human environment may occur also as a result of acts of war or of other man made circumstances including major industrial accident

Background

Latin American countries have a long experience in the prevention and control of vector-borne diseases. Therefore, it is safe to assume that in areas where important vector-borne diseases are endemic the health departments have control activities in operation. This implies (a) availability of baseline data; (b) the existence of a core group of epidemiologists, entomologists and public health specialists who can advise on measures to be taken; (c) availability of equipment, manuals and training material; and (d) logistic support and emergency supplies.

When disasters hit disease transmission risk factors increase, vector control activities are disrupted and pre-existing emergency plans must become operational. Experts have noted that the majority of these plans are too rigid and should be adapted to local circumstances. The optimum use of available resources should always be taken into account.

In the period immediately following a hurricane, the risk of acquiring malaria, dengue or encephalitis may decrease as a result of the destruction of breeding places of the local vectors. The epidemiological situation is likely to change a few weeks later. It is necessary to watch for indirect effects of the disaster. Destruction of aqueducts will prompt the population to accumulate fresh water in temporary containers, which constitute an ideal breeding place for dengue carrying mosquitoes. Casualties resulting from earthquakes may increase the demand for blood transfusion, a risk in itself in areas where Chagas' disease is endemic. Living conditions in temporary camps increase man-vector contacts.

The density of mosquitoes considered non-vectors of disease are likely to increase shortly after a hurricane hits. Even though these mosquitoes have no medical importance, the affected population demands and should get attention to the nuisance problem.

No major communicable disease problems are normally expected in North America as a result of a disaster situation.

In Mainland Middle America, the Caribbean, and Tropical South America existing arthropod-borne diseases include malaria, mucocutaneous leishmaniasis, diffuse cutaneous leishmaniasis, visceral leishmaniasis, onchocerciasis (river blindness), American trypanosomiasis or Chagas' disease, bancroftian filariasis, dengue fever, dengue hemorrhagic fever (DHF), Venezuelan equine encephalitis, viral encephalitis, human fasciolosis, tularemia, jungle yellow fever, bartonellosis, Oroya fever, louse-borne typhus, and plague.

With the exception of Chagas' disease, the arthropod-borne diseases are not important in the countries of Temperate South America.

In the context of a natural disaster, the most important vector-borne diseases in the Americas are malaria, dengue fever and dengue hemorrhagic fever. Urban yellow fever shares the vector of dengue, but yellow fever is rarely transmitted in urban areas except during an epidemic. Besides, yellow fever is preventable by a safe and effective vaccine. No vaccine is currently available for malaria, dengue fever or DHF.

The Do's at the institutional and community level

• Establish preparedness plans for the control of epidemics of dengue, malaria and other vector borne diseases within the general organization of emergency health services, which in turn should be included within the National Disaster Preparedness Plans in areas at recognized risk;
• Update the epidemiological profiles of areas considered to be at risk, particularly when a potential disaster situation is forecasted; 
• Arrange to have ready a core group of trained personnel, supplies and equipment as well as logistic support to strengthen prevention and control activities at short notice; 
• Evaluate the situation and adjust the emergency plans to the local conditions before putting them into action. Epidemics of malaria, dengue and encephalitis subsequent to a disaster, if they occur at all, start about six weeks after the disaster hits. 
• Make maximum use of epidemiological data directly related to disease management, especially at district and local levels. For instance, in relation to malaria, analyze data related to "fever treated with antimalarial drugs" and not only the positive smear rates.

The Do's at the personal level

• Participate in community action groups for the control of larval habitats of A. aegypti in areas at risk of dengue or DHF ;
• Apply mosquito source reduction techniques in the home environment following the instructions of anti A. aegypti program personnel; 
• Seek diagnosis and treatment for fever symptoms at the nearest health unit or community voluntary health worker post; 
• Facilitate the application of residual insecticides when so indicated for the control of malaria epidemics; 
• Use mosquito repellents when working outside the home during the evening hours and a mosquito net when sleeping.

Lo que no se debe hacer

• Acampar al aire libre en una zona conocida de malaria a menos que se tenga la protección de un mosquitero adecuado.
• Saltarse tomas de los medicamentos profilácticos de la malaria si se visitan las zonas rurales conocidas de malaria, en particular si la persona viene de una zona o país libre de malaria.
• Olvidarse de tomar la vacuna antiamarílica al menos seis días antes de viajar a una zona donde se ha notificado la fiebre amarilla de la selva, y de la necesidad de vacunas de "refuerzo" cada diez años.
• Mantener neumáticos viejos, botellas vacías, automóviles reducidos a chatarra, barcos sin protección, cáscaras de coco o conchas de mar, u otros envases de agua que pudieran convertirse en criaderos de mosquitos A. aegypti en el propio patio de la casa.
• Olvidarse de mantener los recipientes domésticos de agua potable cubiertos con una tapa y añadirles productos químicos antilarvarios, como el temefós (Abate) o el metopreno (Altosid), si lo aconseja un trabajador de salud local.

Note: Use of trade names is for identification only and does not imply endorsement by the Pan American Health Organization (PAHO/WHO)

Suggested reading

• Vector control after natural disasters. Pan American Health Organization, 1982. Scientific Publication No.419
• Dengue y dengue hemorrágico en las Américas: guías para su prevención y control. Organización Panamaricana de la Salud, 1995 Pubicación científica No. 548 (Available in English, 1994) 
• Implementation of the Global Malaria Control Strategy, WHO Technical Report Series, 839 World Health Organization, Geneva 1993 
• Malaria Epidemics: Detection and Control, Forecasting and Prevention. JA Nájera, RL Kouznetzsov and C Delacollette WHO/MAL/98.1084 (Orig. English). WHO Geneva, 1998 
• A new tactic for Triatoma infestans control: fabrics impregnated with beta-cypermethrin. Edgardo Wood, et. al.- Pan American Journal of Public Health, Vol. 6 No. 1 (July 1999) pp 1-7 PAHO/WHO, Washington, 1999 
• Centers for Disease Control and Prevention. Health Information for International Travel, 1999-2000, DHHS, Atlanta, GA 
• Communicable Diseases. Text extracted from Health Conditions in the Americas, 1990 edition, Vol. I Scientific Publication No. 524 PAHO/WHO, Washington, DC 1990 
• Regional Overview of Malaria Control in the Americas "Roll Back Malaria in the Americas." PAHO/HCP/HCT/127/98-99, PAHO/WHO, 1998

Frequently Asked Questions