Abstract
On 21 April 1983 the Royal Society of Tropical Medicine and Hygiene held a joint meeting with the Institute of Civil Engineers at Manson House on ‘Engineering against Insect-borne Diseases in the Domestic Environment’. The summary of a talk by Chris Schofield and Graham White on ‘House design and domestic vectors of disease’ was published in a special issue of the Transactions of the Royal Society of Tropical Medicine and Hygiene.1 The manuscript highlights the home and peri-domestic environment as an important site of transmission for many vector-borne diseases, due to the presence of people, and in some cases animals, on which to feed, and provision of shelter from predators and extreme climate. For example, malaria mosquito vectors such as Anopheles gambiae readily enter houses at night to feed on humans. Aedes aegypti, the mosquito vector of diseases including dengue, yellow fever, Zika and chikungunya, is common in urban areas where water that collects in discarded plastic containers, car tires and water storage containers provides ideal aquatic habitats for this mosquito to lay its eggs. Cracked and uneven floors and walls can provide habitats for flea larvae, house dust mites, sandflies and triatomine bugs; the latter are vectors of leishmaniasis and Chagas disease, respectively. Flooded pit latrines, cracked septic tanks and stormwater drains provide habitats for Culex mosquitoes, which can transmit filariasis and contribute to nuisance biting.
Highlights
Since the manuscript by Schofield and White was published we have seen much progress in the control of vector-borne diseases
On 21 April 1983 the Royal Society of Tropical Medicine and Hygiene held a joint meeting with the Institute of Civil Engineers at Manson House on ‘Engineering against Insect-borne Diseases in the Domestic Environment’
The theme of controlling vector-borne diseases through the built environment is echoed in a new initiative launched last year called the BOVA (Building Out Vector-borne diseases in subSaharan Africa) Network, which is funded by the Global Challenges Research Fund
Summary
Since the manuscript by Schofield and White was published we have seen much progress in the control of vector-borne diseases. Scale-up of interventions against malaria averted 663 million malaria cases in the period between 2000 and 2015, with long-lasting insecticidal nets in particular responsible for 68% of this reduction.[3] Despite this progress, there is still work to do to make lifesaving interventions universally available and, notably, the vector-borne disease landscape is shifting as a result of social and environmental changes.
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