Background:The prevalence of schistosomiasis remains a key public health issue in China.Jiangling County in Hubei Province is a typical lake and marshland endemic area.The pattern analysis of schistosomiasis prevalenc...Background:The prevalence of schistosomiasis remains a key public health issue in China.Jiangling County in Hubei Province is a typical lake and marshland endemic area.The pattern analysis of schistosomiasis prevalence in Jiangling County is of significant importance for promoting schistosomiasis surveillance and control in the similar endemic areas.Methods:The dataset was constructed based on the annual schistosomiasis surveillance as well the socio-economic data in Jiangling County covering the years from 2009 to 2013.A village clustering method modified from the K-mean algorithm was used to identify different types of endemic villages.For these identified village clusters,a matrix-based predictive model was developed by means of exploring the one-step backward temporal correlation inference algorithm aiming to estimate the predicative correlations of schistosomiasis prevalence among different years.Field sampling of faeces from domestic animals,as an indicator of potential schistosomiasis prevalence,was carried out and the results were used to validate the results of proposed models and methods.Results:The prevalence of schistosomiasis in Jiangling County declined year by year.The total of 198 endemic villages in Jiangling County can be divided into four clusters with reference to the 5 years’occurrences of schistosomiasis in human,cattle and snail populations.For each identified village cluster,a predictive matrix was generated to characterize the relationships of schistosomiasis prevalence with the historic infection level as well as their associated impact factors.Furthermore,the results of sampling faeces from the front field agreed with the results of the identified clusters of endemic villages.Conclusion:The results of village clusters and the predictive matrix can be regard as the basis to conduct targeted measures for schistosomiasis surveillance and control.Furthermore,the proposed models and methods can be modified to investigate the schistosomiasis prevalence in other regions as well as be used for investigating other parasitic diseases.展开更多
基金This work was supported by the National Natural Science Foundation of China(No.81101280)by the National Special Science and Technology Project for Major Infectious Diseases of China(Grant Nos.2012ZX10004-220,2016ZX10004222-004)+3 种基金the China UK Global Health Support Programme(GHSP-CS-OP101)the Forth Round of Three-Year Public Health Action Plan of Shanghai,China(No.15GWZK0101,GWIV-29)High Resolution Remote Sensing Monitoring Progect(No.10-Y30B11-9001-14/16)The open project from Key Laboratory of Parasite and Vector Biology,Ministry of Health.The funders had no role in study design,data collection and analysis,decision to publish,or preparation of the manuscript.
文摘Background:The prevalence of schistosomiasis remains a key public health issue in China.Jiangling County in Hubei Province is a typical lake and marshland endemic area.The pattern analysis of schistosomiasis prevalence in Jiangling County is of significant importance for promoting schistosomiasis surveillance and control in the similar endemic areas.Methods:The dataset was constructed based on the annual schistosomiasis surveillance as well the socio-economic data in Jiangling County covering the years from 2009 to 2013.A village clustering method modified from the K-mean algorithm was used to identify different types of endemic villages.For these identified village clusters,a matrix-based predictive model was developed by means of exploring the one-step backward temporal correlation inference algorithm aiming to estimate the predicative correlations of schistosomiasis prevalence among different years.Field sampling of faeces from domestic animals,as an indicator of potential schistosomiasis prevalence,was carried out and the results were used to validate the results of proposed models and methods.Results:The prevalence of schistosomiasis in Jiangling County declined year by year.The total of 198 endemic villages in Jiangling County can be divided into four clusters with reference to the 5 years’occurrences of schistosomiasis in human,cattle and snail populations.For each identified village cluster,a predictive matrix was generated to characterize the relationships of schistosomiasis prevalence with the historic infection level as well as their associated impact factors.Furthermore,the results of sampling faeces from the front field agreed with the results of the identified clusters of endemic villages.Conclusion:The results of village clusters and the predictive matrix can be regard as the basis to conduct targeted measures for schistosomiasis surveillance and control.Furthermore,the proposed models and methods can be modified to investigate the schistosomiasis prevalence in other regions as well as be used for investigating other parasitic diseases.
