%0 Journal Article %1 Silue2008 %A Silué, Kigbafori D %A Raso, Giovanna %A Yapi, Ahoua %A Vounatsou, Penelope %A Tanner, Marcel %A N'goran, Eliézer K %A Utzinger, Jürg %D 2008 %J Malaria Journal %K Animals Humans Malaria Child RiskFactors disease Models Statistical utilization bayesian HealthServicesAccessibility Plasmodiumfalciparum Geography Adolescent RuralPopulation AgeFactors ProtectiveDevices Questionnaires parasitology Coted'Ivoire SocioeconomicFactors epidemiology isolation/&/purification Falciparum Blood predictivemodel Prevalence %P 111 %R 10.1186/1475-2875-7-111 %T Spatially-explicit risk profiling of Plasmodium falciparum infections at a small scale: a geostatistical modelling approach. %U http://dx.doi.org/10.1186/1475-2875-7-111 %V 7 %X BACKGROUND: There is a renewed political will and financial support to eradicate malaria. Spatially-explicit risk profiling will play an important role in this endeavour. Patterns of Plasmodium falciparum infection prevalence were examined among schoolchildren in a highly malaria-endemic area. METHODS: A questionnaire was administered and finger prick blood samples collected from 3,962 children, aged six to 16 years, attending 55 schools in a rural part of western Côte d'Ivoire. Information was gathered from the questionnaire on children's socioeconomic status and the use of bed nets for the prevention of malaria. Blood samples were processed with standardized, quality-controlled methods for diagnosis of Plasmodium spp. infections. Environmental data were obtained from satellite images and digitized maps. Bayesian variogram models for spatially-explicit risk modelling of P. falciparum infection prevalence were employed, assuming for stationary and non-stationary spatial processes. FINDINGS: The overall prevalence of P. falciparum infection was 64.9\%, ranging between 34.0\% and 91.9\% at the unit of the school. Risk factors for a P. falciparum infection included age, socioeconomic status, not sleeping under a bed net, distance to health care facilities and a number of environmental features (i.e. normalized difference vegetation index, rainfall and distance to rivers). After taking into account spatial correlation only age remained significant. Non-stationary models performed better than stationary models. CONCLUSION: Spatial risk profiling of P. falciparum prevalence data provides a useful tool for targeting malaria control intervention, and hence will play a role in the quest of local elimination and ultimate eradication of the disease.

@article{Silue2008, abstract = {BACKGROUND: There is a renewed political will and financial support to eradicate malaria. Spatially-explicit risk profiling will play an important role in this endeavour. Patterns of Plasmodium falciparum infection prevalence were examined among schoolchildren in a highly malaria-endemic area. METHODS: A questionnaire was administered and finger prick blood samples collected from 3,962 children, aged six to 16 years, attending 55 schools in a rural part of western Côte d'Ivoire. Information was gathered from the questionnaire on children's socioeconomic status and the use of bed nets for the prevention of malaria. Blood samples were processed with standardized, quality-controlled methods for diagnosis of Plasmodium spp. infections. Environmental data were obtained from satellite images and digitized maps. Bayesian variogram models for spatially-explicit risk modelling of P. falciparum infection prevalence were employed, assuming for stationary and non-stationary spatial processes. FINDINGS: The overall prevalence of P. falciparum infection was 64.9\%, ranging between 34.0\% and 91.9\% at the unit of the school. Risk factors for a P. falciparum infection included age, socioeconomic status, not sleeping under a bed net, distance to health care facilities and a number of environmental features (i.e. normalized difference vegetation index, rainfall and distance to rivers). After taking into account spatial correlation only age remained significant. Non-stationary models performed better than stationary models. CONCLUSION: Spatial risk profiling of P. falciparum prevalence data provides a useful tool for targeting malaria control intervention, and hence will play a role in the quest of local elimination and ultimate eradication of the disease.}, added-at = {2010-01-14T17:51:19.000+0100}, author = {Silué, Kigbafori D and Raso, Giovanna and Yapi, Ahoua and Vounatsou, Penelope and Tanner, Marcel and N'goran, Eliézer K and Utzinger, Jürg}, biburl = {https://www.bibsonomy.org/bibtex/211a78227e65ec8cc838d74d8925de3dd/uvesco}, doi = {10.1186/1475-2875-7-111}, file = {:Silue2008.pdf:PDF}, institution = {UFR Biosciences, Université de Cocody-Abidjan, 22 BP 770, Abidjan 22, Côte d'Ivoire. kigbafori.silue@csrs.ci}, interhash = {bc66c6716f94eea75348b1ecc98abdf0}, intrahash = {11a78227e65ec8cc838d74d8925de3dd}, journal = {Malaria Journal}, keywords = {Animals Humans Malaria Child RiskFactors disease Models Statistical utilization bayesian HealthServicesAccessibility Plasmodiumfalciparum Geography Adolescent RuralPopulation AgeFactors ProtectiveDevices Questionnaires parasitology Coted'Ivoire SocioeconomicFactors epidemiology isolation/&/purification Falciparum Blood predictivemodel Prevalence}, language = {eng}, medline-pst = {epublish}, pages = 111, pii = {1475-2875-7-111}, pmid = {18570685}, timestamp = {2010-01-14T17:51:19.000+0100}, title = {Spatially-explicit risk profiling of Plasmodium falciparum infections at a small scale: a geostatistical modelling approach.}, url = {http://dx.doi.org/10.1186/1475-2875-7-111}, volume = 7, year = 2008 }