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Malaria Journal
Published in: Malaria Journal 1/2021

Open Access 01-12-2021 | Malaria | Research

An urban-to-rural continuum of malaria risk: new analytic approaches characterize patterns in Malawi

Authors: Peter S. Larson, Joseph N. S. Eisenberg, Veronica J. Berrocal, Don P. Mathanga, Mark L. Wilson

Published in: Malaria Journal | Issue 1/2021

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Abstract

Background

The urban–rural designation has been an important risk factor in infectious disease epidemiology. Many studies rely on a politically determined dichotomization of rural versus urban spaces, which fails to capture the complex mosaic of infrastructural, social and environmental factors driving risk. Such evaluation is especially important for Plasmodium transmission and malaria disease. To improve targeting of anti-malarial interventions, a continuous composite measure of urbanicity using spatially-referenced data was developed to evaluate household-level malaria risk from a house-to-house survey of children in Malawi.

Methods

Children from 7564 households from eight districts throughout Malawi were tested for presence of Plasmodium parasites through finger-prick blood sampling and slide microscopy. A survey questionnaire was administered and latitude and longitude coordinates were recorded for each household. Distances from households to features associated with high and low levels of development (health facilities, roads, rivers, lakes) and population density were used to produce a principal component analysis (PCA)-based composite measure for all centroid locations of a fine geo-spatial grid covering Malawi. Regression methods were used to test associations of the urbanicity measure against Plasmodium infection status and to predict parasitaemia risk for all locations in Malawi.

Results

Infection probability declined with increasing urbanicity. The new urbanicity metric was more predictive than either a governmentally defined rural/urban dichotomous variable or a population density variable. One reason for this was that 23% of cells within politically defined rural areas exhibited lower risk, more like those normally associated with “urban” locations.

Conclusions

In addition to increasing predictive power, the new continuous urbanicity metric provided a clearer mechanistic understanding than the dichotomous urban/rural designations. Such designations often ignore urban-like, low-risk pockets within traditionally rural areas, as were found in Malawi, along with rural-like, potentially high-risk environments within urban areas. This method of characterizing urbanicity can be applied to other infectious disease processes in rapidly urbanizing contexts.
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Metadata
Title
An urban-to-rural continuum of malaria risk: new analytic approaches characterize patterns in Malawi
Authors
Peter S. Larson
Joseph N. S. Eisenberg
Veronica J. Berrocal
Don P. Mathanga
Mark L. Wilson
Publication date
01-12-2021
Publisher
BioMed Central
Keywords
Malaria
Plasmodia
Published in
Malaria Journal / Issue 1/2021
Electronic ISSN: 1475-2875
DOI
https://doi.org/10.1186/s12936-021-03950-5

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