Kiware, S. S. and Chitnis, N. and Moore, S. J. and Devine, G. J. and Majambere, S. and Merrill, S. and Killeen, G. F.. (2012) Simplified models of vector control impact upon malaria transmission by zoophagic mosquitoes. PLoS one, Vol. 7, H. 5 , e37661.
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Official URL: http://edoc.unibas.ch/dok/A6094370
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Abstract
BACKGROUND: High coverage of personal protection measures that kill mosquitoes dramatically reduce malaria transmission where vector populations depend upon human blood. However, most primary malaria vectors outside of sub-Saharan Africa can be classified as 'very zoophagic,' meaning they feed occasionally (>10% of blood meals) upon humans, so personal protection interventions have negligible impact upon their survival. METHODS AND FINDINGS: We extended a published malaria transmission model to examine the relationship between transmission, control, and the baseline proportion of bloodmeals obtained from humans (human blood index). The lower limit of the human blood index enables derivation of simplified models for zoophagic vectors that (1) Rely on only three field-measurable parameters. (2) Predict immediate and delayed (with and without assuming reduced human infectivity, respectively) impacts of personal protection measures upon transmission. (3) Illustrate how appreciable indirect communal-level protection for non-users can be accrued through direct personal protection of users. (4) Suggest the coverage and efficacy thresholds required to attain epidemiological impact. The findings suggest that immediate, indirect, community-wide protection of users and non-users alike may linearly relate to the efficacy of a user's direct personal protection, regardless of whether that is achieved by killing or repelling mosquitoes. High protective coverage and efficacy (</=80%) are important to achieve epidemiologically meaningful impact. Non-users are indirectly protected because the two most common species of human malaria are strict anthroponoses. Therefore, the small proportion of mosquitoes that are killed or diverted while attacking humans can represent a large proportion of those actually transmitting malaria. CONCLUSIONS: Simplified models of malaria transmission by very zoophagic vectors may be used by control practitioners to predict intervention impact interventions using three field-measurable parameters; the proportion of human exposure to mosquitoes occurring when an intervention can be practically used, its protective efficacy when used, and the proportion of people using it
Faculties and Departments: | 09 Associated Institutions > Swiss Tropical and Public Health Institute (Swiss TPH) > Department of Epidemiology and Public Health (EPH) > Household Economics and Health Systems Research |
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UniBasel Contributors: | Chitnis, Nakul |
Item Type: | Article, refereed |
Article Subtype: | Research Article |
Publisher: | Public Library of Science |
ISSN: | 1932-6203 |
Note: | Publication type according to Uni Basel Research Database: Journal article |
Language: | English |
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Last Modified: | 31 Dec 2015 10:53 |
Deposited On: | 19 Jul 2013 07:39 |
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