A systematic, realist review of zooprophylaxis for malaria control

A systematic, realist review of zooprophylaxis for malaria control

Integrated vector management (IVM) is recommended as a sustainable approach to malaria control. IVM consists of combining vector control methods based on scientific evidence to maximize efficacy and cost-effectiveness while minimizing negative impacts, such as insecticide resistance and environmenta...

Full description

Saved in:
Bibliographic Details
Published in:Malaria journal Vol. 14; no. 1; p. 313
Main Authors: Donnelly, Blánaid, Berrang-Ford, Lea, Ross, Nancy A, Michel, Pascal
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 12-08-2015
BioMed Central
Subjects:
Animals
Anopheles
Anopheles - physiology
Complications and side effects
Control
Development and progression
Health aspects
Housing, Animal
Humans
Insect Vectors - physiology
Insecticides
Livestock
Malaria
Malaria - parasitology
Malaria - prevention & control
Mathematical models
Methods
Mosquito Control - methods
Mosquito Nets
Mosquitoes
Patient outcomes
Preferences
Public health
Studies
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Integrated vector management (IVM) is recommended as a sustainable approach to malaria control. IVM consists of combining vector control methods based on scientific evidence to maximize efficacy and cost-effectiveness while minimizing negative impacts, such as insecticide resistance and environmental damage. Zooprophylaxis has been identified as a possible component of IVM as livestock may draw mosquitoes away from humans, decreasing human-vector contact and malaria transmission. It is possible, however, that livestock may actually draw mosquitoes to humans, increasing malaria transmission (zoopotentiation). The goal of this paper is to take a realist approach to a systematic review of peer-reviewed literature to understand the contexts under which zooprophylaxis or zoopotentiation occur. Three electronic databases were searched using the keywords 'zooprophylaxis' and 'zoopotentiation', and forward and backward citation tracking employed, to identify relevant articles. Only empirical, peer-reviewed articles were included. Critical appraisal was applied to articles retained for full review. Twenty empirical studies met inclusion criteria after critical appraisal. A range of experimental and observational study designs were reported. Outcome measures included human malaria infection and mosquito feeding behaviour. Two key factors were consistently associated with zooprophylaxis and zoopotentiation: the characteristics of the local mosquito vector, and the location of livestock relative to human sleeping quarters. These associations were modified by the use of bed nets and socio-economic factors. This review suggests that malaria risk is reduced (zooprophylaxis) in areas where predominant mosquito species do not prefer human hosts, where livestock are kept at a distance from human sleeping quarters at night, and where mosquito nets or other protective measures are used. Zoopotentiation occurs where livestock are housed within or near human sleeping quarters at night and where mosquito species prefer human hosts. The evidence suggests that zooprophylaxis could be part of an effective strategy to reduce malaria transmission under specific ecological and geographical conditions. The current scientific evidence base is inconclusive on understanding the role of socio-economic factors, optimal distance between livestock and human sleeping quarters, and the effect of animal species and number on zooprophylaxis.
ISSN:1475-2875
1475-2875
DOI:10.1186/s12936-015-0822-0