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Barbour双宿主模型简介及应用 被引量:2

Application of Barbour's Two-host Model in Surveillance Data of Schistosomiasis in Sichuan
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摘要 目的揭示血吸虫病的流行特征和不同监测点的流行特点。方法应用Barbour双宿主模型计算传播动力学指标。结果各监测点人和耕牛的基本繁殖率均较低,血吸虫对牛的传播速率明显高于对人的传播速率,表明牛宿主或病牛在血吸虫病的传播中起着更重要的作用,各监测点亦表现出不同的传播特点。结论Barbour双宿主模型较之其他单终宿主模型复杂,但更能反映日本血吸虫病传播的情况。 Objective To reveal the epidemiological characteristics of schistosomiasis and the differences among the surveillance sites. Method In four surveillance sites of Sichuan Province, Barbour's two-host model was used to estimate the indices of the transmission dynamics. Result In each schistosomiasis surveillance site, the net reproductive number was much less. The cattles' transmission capacity was much higher than human's indicated that cattle was much more important in the transmission of schistosmiasis. In addition, each site had different epidemiological characteristics. Conclusion Barbour's two-host model is more complicated than other single-host models and can further demonstrate the situation of schistosmiasis japonica.
作者 修良昌 张强 尹治成 辜学广
机构地区 广东医学院公共卫生学院流行病与卫生统计学教研室 四川大学华西公共卫生学院卫生统计学教研室 四川省疾病预防控制中心
出处 《寄生虫病与感染性疾病》 CAS 2008年第1期12-15,共4页 Parasitoses and Infectious Diseases
关键词 血吸虫病 数学模型 Barbour双宿主模型 schistosomiasis mathematic model Barbour's two-host model
分类号 R532.21 [医药卫生—内科学]
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参考文献8

  • 1吴开琛.血吸虫病数学模型和传播动力学及其应用[J].中国热带医学,2005,5(4):837-844. 被引量:15
  • 2Woolhouse ME. On the application of mathematical models of schlstosome transmission dynamic.Ⅰ. Nature transmission [ J ]. Acta Trap, 1991, 49: 241-270.
  • 3Woolhouse ME. On the application of mathematical models of schistosome transmission dynamic.Ⅱ. Control[ J]. Acta Trop, 1992,50 : 189-204.
  • 4Barbour AD. Modeling the transmission of schistosomiasis : an introductory view [ J]. Am J Trop Med Hyg, 1996, 55 (Suppl) : 135-143.
  • 5Macdonald G. The dynamics of helmlnth infections with special reference to schistosomes [ J ]. Trans Roy Soc Trop Med Hyg, 1965, 59 (5) :489-506.
  • 6Williams GM, Sleigh AC, Li Y, et al. Mathematical modelling of schistosomiasis japonica: comparison of control strategies in the People's Republic of China[J]. Acta Tropica, 2002, 82 (2) : 253-262.
  • 7Liang S, Maszle D, Spear RC. A quantitative framework for a multi-group model of schistosomiasis japonica transmission dynamics and control in Sichuan, China [ J ]. Acta Tropica, 2002, 82(2) : 263-277.
  • 8陈文江,吴开琛,李才旭,林明和,吴开录.登革热、疟疾和丝虫病蚊媒的传播动力学比较及其与防治效应的研究[J].中国热带医学,2003,3(2):147-149. 被引量:11

二级参考文献13

  • 1吴开琛.疟疾数学模型和传播动力学[J].中国热带医学,2004,4(5):873-876. 被引量:13
  • 2吴开琭,吴开琛.应用疟疾传播数学模型比较疟疾与丝虫病的传播动力学及防治效应[J].中国寄生虫学与寄生虫病杂志,1993,11(3):185-189. 被引量:6
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  • 8Macdonald G. The dynamics of helminth infections, with special reference to schistosomes[J]. Trans R Soc. Trop Med Hyg, 1965,59:489 ~ 506.
  • 9Barbour AD. Modeling the transmission of schistosomiasis: an introductory view[J]. Am J Trop Med Hyg, 1996,55(Suppl): 135 ~ 143.
  • 10Woolhouse MEJ. On the application of mathematical models of schistosome transmission dynamics, Ⅰ [ J] . Natural transmission. Acta Trop, 1991,49:241 ~ 270.

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寄生虫病与感染性疾病
2008年 第1期

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