Reducing Plasmodium falciparum malaria transmission in Africa: a model-based evaluation of intervention strategies

Over the past decade malaria intervention coverage has been scaled up across Africa. However, it remains unclear what overall reduction in transmission is achievable using currently available tools. We developed an individual-based simulation model for Plasmodium falciparum transmission in an Africa...

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Bibliographic Details
Published in:PLoS medicine 2010-08, Vol.7 (8), p.e1000324
Main Authors: Griffin, Jamie T, Hollingsworth, T Deirdre, Okell, Lucy C, Churcher, Thomas S, White, Michael, Hinsley, Wes, Bousema, Teun, Drakeley, Chris J, Ferguson, Neil M, Basáñez, María-Gloria, Ghani, Azra C
Format: Article
Language:English
Subjects:
Africa - epidemiology
Animals
Anopheles
Anopheles - drug effects
Anopheles - parasitology
Anopheles gambiae
Artemisinins - pharmacology
Artemisinins - therapeutic use
Control
Disease transmission
Distribution
Health aspects
Humans
Infectious Diseases/Epidemiology and Control of Infectious Diseases
Insect Vectors - drug effects
Insect Vectors - parasitology
Insecticides
Malaria
Malaria, Falciparum - prevention & control
Malaria, Falciparum - transmission
Medical research
Models, Theoretical
Mosquito Control - standards
Mosquitoes
Parasites
Plasmodium falciparum
Plasmodium falciparum - drug effects
Prevention
Risk factors
Studies
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Summary:Over the past decade malaria intervention coverage has been scaled up across Africa. However, it remains unclear what overall reduction in transmission is achievable using currently available tools. We developed an individual-based simulation model for Plasmodium falciparum transmission in an African context incorporating the three major vector species (Anopheles gambiae s.s., An. arabiensis, and An. funestus) with parameters obtained by fitting to parasite prevalence data from 34 transmission settings across Africa. We incorporated the effect of the switch to artemisinin-combination therapy (ACT) and increasing coverage of long-lasting insecticide treated nets (LLINs) from the year 2000 onwards. We then explored the impact on transmission of continued roll-out of LLINs, additional rounds of indoor residual spraying (IRS), mass screening and treatment (MSAT), and a future RTS,S/AS01 vaccine in six representative settings with varying transmission intensity (as summarized by the annual entomological inoculation rate, EIR: 1 setting with low, 3 with moderate, and 2 with high EIRs), vector-species combinations, and patterns of seasonality. In all settings we considered a realistic target of 80% coverage of interventions. In the low-transmission setting (EIR approximately 3 ibppy [infectious bites per person per year]), LLINs have the potential to reduce malaria transmission to low levels (90%) or novel tools and/or substantial social improvements will be required, although considerable reductions in prevalence can be achieved with existing tools and realistic coverage levels. Interventions using current tools can result in major reductions in P. falciparum malaria transmission and the associated disease burden in Africa. Reduction to the 1% parasite prevalence threshold is possible in low- to moderate-transmission settings when vectors are primarily endophilic (indoor-resting), provided a comprehensive and sustained intervention program is achie
ISSN:1549-1676
1549-1277
1549-1676
DOI:10.1371/journal.pmed.1000324