OBJECTIVE: To develop a Bayesian hierarchical model for human onchocerciasis with which to explore the factors that influence prevalence of microfilariae in the Amazonian focus of onchocerciasis and predict the probability of any community being at least mesoendemic (>20% prevalence of microfilariae), and thus in need of priority ivermectin treatment. METHODS: Models were developed with data from 732 individuals aged > or =15 years who lived in 29 Yanomami communities along four rivers of the south Venezuelan Orinoco basin. The models' abilities to predict prevalences of microfilariae in communities were compared. The deviance information criterion, Bayesian P-values, and residual values were used to select the best model with an approximate cross-validation procedure. FINDINGS: A three-level model that acknowledged clustering of infection within communities performed best, with host age and sex included at the individual level, a river-dependent altitude effect at the community level, and additional clustering of communities along rivers. This model correctly classified 25/29 (86%) villages with respect to their need for priority ivermectin treatment. CONCLUSION: Bayesian methods are a flexible and useful approach for public health research and control planning. Our model acknowledges the clustering of infection within communities, allows investigation of links between individual- or community-specific characteristics and infection, incorporates additional uncertainty due to missing covariate data, and informs policy decisions by predicting the probability that a new community is at least mesoendemic.
OBJECTIVE: To develop a Bayesian hierarchical model for humanonchocerciasis with which to explore the factors that influence prevalence of microfilariae in the Amazonian focus of onchocerciasis and predict the probability of any community being at least mesoendemic (>20% prevalence of microfilariae), and thus in need of priority ivermectin treatment. METHODS: Models were developed with data from 732 individuals aged > or =15 years who lived in 29 Yanomami communities along four rivers of the south Venezuelan Orinoco basin. The models' abilities to predict prevalences of microfilariae in communities were compared. The deviance information criterion, Bayesian P-values, and residual values were used to select the best model with an approximate cross-validation procedure. FINDINGS: A three-level model that acknowledged clustering of infection within communities performed best, with host age and sex included at the individual level, a river-dependent altitude effect at the community level, and additional clustering of communities along rivers. This model correctly classified 25/29 (86%) villages with respect to their need for priority ivermectin treatment. CONCLUSION: Bayesian methods are a flexible and useful approach for public health research and control planning. Our model acknowledges the clustering of infection within communities, allows investigation of links between individual- or community-specific characteristics and infection, incorporates additional uncertainty due to missing covariate data, and informs policy decisions by predicting the probability that a new community is at least mesoendemic.
Authors: Archie C A Clements; Nicholas J S Lwambo; Lynsey Blair; Ursuline Nyandindi; Godfrey Kaatano; Safari Kinung'hi; Joanne P Webster; Alan Fenwick; Simon Brooker Journal: Trop Med Int Health Date: 2006-04 Impact factor: 2.622
Authors: Simon J O'Hanlon; Hannah C Slater; Robert A Cheke; Boakye A Boatin; Luc E Coffeng; Sébastien D S Pion; Michel Boussinesq; Honorat G M Zouré; Wilma A Stolk; María-Gloria Basáñez Journal: PLoS Negl Trop Dis Date: 2016-01-15
Authors: Carlos Botto; María-Gloria Basañez; Marisela Escalona; Néstor J Villamizar; Oscar Noya-Alarcón; José Cortez; Sarai Vivas-Martínez; Pablo Coronel; Hortencia Frontado; Jorge Flores; Beatriz Graterol; Oneida Camacho; Yseliam Tovar; Daniel Borges; Alba Lucia Morales; Dalila Ríos; Francisco Guerra; Héctor Margeli; Mario Alberto Rodriguez; Thomas R Unnasch; María Eugenia Grillet Journal: Parasit Vectors Date: 2016-01-27 Impact factor: 3.876