Alegana, Victor A. and Atkinson, Peter Michael and Lourenco, C. and Ruktanonchai, Nick W. and Bosco, Claudio and Erbach-Schoenberg, Elisabeth zu and Didier, Bardley and Pindolia, Deepa and Le Menach, Arnaud and Katokele, Stark and Uusiku, Petrina and Tatem, Andrew J. (2016) Advances in mapping malaria for elimination : fine resolution modelling of Plasmodium falciparum incidence. Scientific Reports, 6: 29628. ISSN 2045-2322
Full text not available from this repository.Abstract
The long-term goal of the global effort to tackle malaria is national and regional elimination and eventually eradication. Fine scale multi-temporal mapping in low malaria transmission settings remains a challenge and the World Health Organisation propose use of surveillance in elimination settings. Here, we show how malaria incidence can be modelled at a fine spatial and temporal resolution from health facility data to help focus surveillance and control to population not attending health facilities. Using Namibia as a case study, we predicted the incidence of malaria, via a Bayesian spatio-temporal model, at a fine spatial resolution from parasitologically confirmed malaria cases and incorporated metrics on healthcare use as well as measures of uncertainty associated with incidence predictions. We then combined the incidence estimates with population maps to estimate clinical burdens and show the benefits of such mapping to identifying areas and seasons that can be targeted for improved surveillance and interventions. Fine spatial resolution maps produced using this approach were then used to target resources to specific local populations, and to specific months of the season. This remote targeting can be especially effective where the population distribution is sparse and further surveillance can be limited to specific local areas.