BACKGROUND: Malaria re-emerged in the Huang-Huai Plain of central China during 2006-2008, dominated with Anopheles sinensis as a vector. However, there is no information on strategies based on multi-factor analysis to effectively control the re-emergence of malaria in these areas. Previous experience indicates some relationship between the distribution of water bodies and malaria cases, but more detailed data are not available and in-depth studies have not been conducted up to now. The objective of this study was to identify the relationship between the distribution of water bodies and presentation of malaria cases using spatial analysis tools in order to provide guidance to help formulate effective strategies for use in controlling the sources of malaria infection, based on the identification of risk areas and population. METHODS: The geographic information of malaria cases and their surrounding water bodies were collected from Suixi, Guoyang, Guzhen, Yingshang, Fengyang and Yongqiao County in Anhui province, Yongcheng and Tongbai County in Henan province. All malaria cases distributed in 113 villages in these 8 counties were collected from the China Information System for Disease Control and Prevention and confirmed by household investigation. Data on GIS and malaria cases were mapped and analyzed with the software of ArcGIS 9.2 to identify the spatial correlation between malaria cases and water bodies. The distance from households with malaria cases to the nearest water bodies was used to calculate the OR value by Chi-square test. The risk area was identified through the comparison of OR values in different distances. RESULTS: 357 malaria cases and their GPS data as well as surrounding water bodies were collected and analyzed. 74% of malaria cases were located within the extent of 60 m proximity to the water bodies. The risk rate of people living there and presenting with malaria was significantly higher than others (OR = 1.6,95%CI (1.042, 2.463),P < 0.05). CONCLUSIONS: The results revealed that distribution of water bodies is an important factor influencing the occurrence and distribution of malaria cases in the An.sinensis areas, and implies that the scope and population within 60 m around water bodies are at risk and could be a targeted population for case management of malaria.
BACKGROUND:Malaria re-emerged in the Huang-Huai Plain of central China during 2006-2008, dominated with Anopheles sinensis as a vector. However, there is no information on strategies based on multi-factor analysis to effectively control the re-emergence of malaria in these areas. Previous experience indicates some relationship between the distribution of water bodies and malaria cases, but more detailed data are not available and in-depth studies have not been conducted up to now. The objective of this study was to identify the relationship between the distribution of water bodies and presentation of malaria cases using spatial analysis tools in order to provide guidance to help formulate effective strategies for use in controlling the sources of malaria infection, based on the identification of risk areas and population. METHODS: The geographic information of malaria cases and their surrounding water bodies were collected from Suixi, Guoyang, Guzhen, Yingshang, Fengyang and Yongqiao County in Anhui province, Yongcheng and Tongbai County in Henan province. All malaria cases distributed in 113 villages in these 8 counties were collected from the China Information System for Disease Control and Prevention and confirmed by household investigation. Data on GIS and malaria cases were mapped and analyzed with the software of ArcGIS 9.2 to identify the spatial correlation between malaria cases and water bodies. The distance from households with malaria cases to the nearest water bodies was used to calculate the OR value by Chi-square test. The risk area was identified through the comparison of OR values in different distances. RESULTS: 357 malaria cases and their GPS data as well as surrounding water bodies were collected and analyzed. 74% of malaria cases were located within the extent of 60 m proximity to the water bodies. The risk rate of people living there and presenting with malaria was significantly higher than others (OR = 1.6,95%CI (1.042, 2.463),P < 0.05). CONCLUSIONS: The results revealed that distribution of water bodies is an important factor influencing the occurrence and distribution of malaria cases in the An.sinensis areas, and implies that the scope and population within 60 m around water bodies are at risk and could be a targeted population for case management of malaria.
Authors: Marianne E Sinka; Michael J Bangs; Sylvie Manguin; Theeraphap Chareonviriyaphap; Anand P Patil; William H Temperley; Peter W Gething; Iqbal R F Elyazar; Caroline W Kabaria; Ralph E Harbach; Simon I Hay Journal: Parasit Vectors Date: 2011-05-25 Impact factor: 3.876
Authors: A W Hightower; M Ombok; R Otieno; R Odhiambo; A J Oloo; A A Lal; B L Nahlen; W A Hawley Journal: Am J Trop Med Hyg Date: 1998-03 Impact factor: 2.345
Authors: D M Gunawardena; A R Wickremasinghe; L Muthuwatta; S Weerasingha; J Rajakaruna; T Senanayaka; P K Kotta; N Attanayake; R Carter; K N Mendis Journal: Am J Trop Med Hyg Date: 1998-05 Impact factor: 2.345
Authors: Michael T White; Jamie T Griffin; Thomas S Churcher; Neil M Ferguson; María-Gloria Basáñez; Azra C Ghani Journal: Parasit Vectors Date: 2011-07-28 Impact factor: 3.876
Authors: Patricia Leandro-Reguillo; Richard Thomson-Luque; Wuelton M Monteiro; Marcus V G de Lacerda Journal: Malar J Date: 2015-07-22 Impact factor: 2.979