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Chirombo, J; Lowe, R; Kazembe, L (2014)
Publisher: Public Library of Science
Journal: PLoS ONE
Languages: English
Types: Article
Subjects: Contingency Tables, Research Article, Earth Sciences, Mathematics, Research Design, Geoinformatics, Infectious Diseases, Malaria, Epidemiology, Physical Sciences, Geography, Spatial Epidemiology, Survey Research, Geostatistics, Biostatistics, Statistics (Mathematics), Computer and Information Sciences, Research and Analysis Methods, Clinical Research Design, Spatial Autocorrelation, Medicine, Tropical Diseases, Q, R, Science, Medicine and Health Sciences, Statistical Methods

Classified by OpenAIRE into

mesheuropmc: parasitic diseases
BACKGROUND: After years of implementing Roll Back Malaria (RBM) interventions, the changing landscape of malaria in terms of risk factors and spatial pattern has not been fully investigated. This paper uses the 2010 malaria indicator survey data to investigate if known malaria risk factors remain relevant after many years of interventions. METHODS: We adopted a structured additive logistic regression model that allowed for spatial correlation, to more realistically estimate malaria risk factors. Our model included child and household level covariates, as well as climatic and environmental factors. Continuous variables were modelled by assuming second order random walk priors, while spatial correlation was specified as a Markov random field prior, with fixed effects assigned diffuse priors. Inference was fully Bayesian resulting in an under five malaria risk map for Malawi. RESULTS: Malaria risk increased with increasing age of the child. With respect to socio-economic factors, the greater the household wealth, the lower the malaria prevalence. A general decline in malaria risk was observed as altitude increased. Minimum temperatures and average total rainfall in the three months preceding the survey did not show a strong association with disease risk. CONCLUSIONS: The structured additive regression model offered a flexible extension to standard regression models by enabling simultaneous modelling of possible nonlinear effects of continuous covariates, spatial correlation and heterogeneity, while estimating usual fixed effects of categorical and continuous observed variables. Our results confirmed that malaria epidemiology is a complex interaction of biotic and abiotic factors, both at the individual, household and community level and that risk factors are still relevant many years after extensive implementation of RBM activities.

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Funded by projects

  • EC | QWECI

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