Mapping helminth co-infection and co-intensity: geostatistical prediction in Ghana

dc.contributor.authorSoares Magalhaes, Ricardo
dc.contributor.authorBiritwum, Nana-Kwadwo
dc.contributor.authorGyapong, John O.
dc.contributor.authorBrooker, Simon
dc.contributor.authorZhang, Yaobi
dc.contributor.authorBlair, Lynsey
dc.contributor.authorFenwick, Alan
dc.contributor.authorClements, Archie C. A.
dc.date.accessioned2015-11-04T22:46:19Z
dc.date.available2015-11-04T22:46:19Z
dc.date.issued2011-06-07
dc.date.updated2015-12-11T08:42:17Z
dc.description.abstractBACKGROUND Morbidity due to Schistosoma haematobium and hookworm infections is marked in those with intense co-infections by these parasites. The development of a spatial predictive decision-support tool is crucial for targeting the delivery of integrated mass drug administration (MDA) to those most in need. We investigated the co-distribution of S. haematobium and hookworm infection, plus the spatial overlap of infection intensity of both parasites, in Ghana. The aim was to produce maps to assist the planning and evaluation of national parasitic disease control programs. METHODOLOGY/PRINCIPAL FINDINGS A national cross-sectional school-based parasitological survey was conducted in Ghana in 2008, using standardized sampling and parasitological methods. Bayesian geostatistical models were built, including a multinomial regression model for S. haematobium and hookworm mono- and co-infections and zero-inflated Poisson regression models for S. haematobium and hookworm infection intensity as measured by egg counts in urine and stool respectively. The resulting infection intensity maps were overlaid to determine the extent of geographical overlap of S. haematobium and hookworm infection intensity. In Ghana, prevalence of S. haematobium mono-infection was 14.4%, hookworm mono-infection was 3.2%, and S. haematobium and hookworm co-infection was 0.7%. Distance to water bodies was negatively associated with S. haematobium and hookworm co-infections, hookworm mono-infections and S. haematobium infection intensity. Land surface temperature was positively associated with hookworm mono-infections and S. haematobium infection intensity. While high-risk (prevalence >10-20%) of co-infection was predicted in an area around Lake Volta, co-intensity was predicted to be highest in foci within that area. CONCLUSIONS/SIGNIFICANCE Our approach, based on the combination of co-infection and co-intensity maps allows the identification of communities at increased risk of severe morbidity and environmental contamination and provides a platform to evaluate progress of control efforts.
dc.description.sponsorshipThe Schistosomiasis Control Initiative was funded by the Bill and Melinda Gates foundation. Archie A.C. Clements is funded by an Australian National Health and Medical Research Council Career Development Award (#631619) and Simon Brooker is supported by a Research Career Development Fellowship from the Wellcome Trust (#081673).en_AU
dc.format13 pages
dc.identifier.issn1935-2735en_AU
dc.identifier.urihttp://hdl.handle.net/1885/16346
dc.publisherPublic Library of Science
dc.relationhttp://purl.org/au-research/grants/nhmrc/631619
dc.rights© 2011 Soares Magalha˜es et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
dc.sourcePLoS Neglected Tropical Diseases
dc.subjectadolescent
dc.subjectancylostomatoidea
dc.subjectanimals
dc.subjectchild
dc.subjectchild, preschool
dc.subjectcomorbidity
dc.subjectcross-sectional studies
dc.subjectfeces
dc.subjectfemale
dc.subjectgeography
dc.subjectghana
dc.subjecthelminths
dc.subjecthookworm infections
dc.subjecthumans
dc.subjectmale
dc.subjectmodels, statistical
dc.subjectparasite egg count
dc.subjectprevalence
dc.subjectschistosoma haematobium
dc.subjectschistosomiasis haematobia
dc.subjecturine
dc.subjectyoung adult
dc.titleMapping helminth co-infection and co-intensity: geostatistical prediction in Ghana
dc.typeJournal article
dcterms.dateAccepted2011-04-25
local.bibliographicCitation.issue6en_AU
local.bibliographicCitation.lastpage13
local.bibliographicCitation.startpagee1200en_AU
local.contributor.affiliationMagalhaes, Ricardo Soares, The University of Queensland, Australiaen_AU
local.contributor.affiliationBiritwum, Nana-Kwadwo, Ghana Health Service, Ghanaen_AU
local.contributor.affiliationGyapong, John O, Ghana Health Service, Ghanaen_AU
local.contributor.affiliationBrooker, Simon, London School of Hygiene and Tropical Medicine, United Kingdomen_AU
local.contributor.affiliationZhang, Yaobi, Helen Keller International, Senegalen_AU
local.contributor.affiliationBlair, L, Imperial College London, United Kingdomen_AU
local.contributor.affiliationFenwick, A, Imperial College London, United Kingdomen_AU
local.contributor.affiliationClements, Archie, College of Medicine, Biology and Environment, CMBE Research School of Population Health, Natl Centre for Epidemiology & Population Health, The Australian National Universityen_AU
local.contributor.authoremailarchie.clements@anu.edu.auen_AU
local.contributor.authoruidu5611518en_AU
local.description.notesImported from ARIES. At the time of publication, Archie C. A. Clements was affiliated with School of Population Health, University of Queensland, Herston, Queensland, Australia and Australian Centre for International and Tropical Health, Queensland Institute of Medical Research, Herston, Queensland, Australia.en_AU
local.identifier.absfor111706en_AU
local.identifier.absseo920404en_AU
local.identifier.ariespublicationU3488905xPUB4105en_AU
local.identifier.citationvolume5en_AU
local.identifier.doi10.1371/journal.pntd.0001200en_AU
local.identifier.essn1935-2735en_AU
local.identifier.scopusID2-s2.0-79959815586
local.identifier.uidSubmittedByu3488905en_AU
local.publisher.urlhttps://www.plos.org/en_AU
local.type.statusPublished Versionen_AU

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