Studies of the Transmission Dynamics, Mathematical Model Development and the Control of Schistosome Parasites by Mass Drug Administration in Human Communities

被引:44
|
作者
Anderson, R. M. [1 ]
Turner, H. C. [1 ]
Farrell, S. H. [1 ]
Truscott, J. E. [1 ]
机构
[1] London Ctr Neglected Trop Dis Res, London, England
来源
ADVANCES IN PARASITOLOGY, VOL 94: MATHEMATICAL MODELS FOR NEGLECTED TROPICAL DISEASES: ESSENTIAL TOOLS FOR CONTROL AND ELIMINATION, PT B | 2016年 / 94卷
关键词
POPULATION-DYNAMICS; HELMINTH INFECTIONS; HAEMATOBIUM INFECTION; PROTECTIVE IMMUNITY; COST-EFFECTIVENESS; ACQUIRED-IMMUNITY; LIFE-SPAN; MANSONI; PRAZIQUANTEL; INTENSITY;
D O I
10.1016/bs.apar.2016.06.003
中图分类号
R38 [医学寄生虫学]; Q [生物科学];
学科分类号
07 ; 0710 ; 09 ; 100103 ;
摘要
Schistosomiasis is global in extent within developing countries, but more than 90% of the at-risk population lives in sub-Saharan Africa. In total, 261 million people are estimated to require preventive treatment. However, with increasing drug availability through donation, the World Health Organization has set a goal of increasing coverage to 75% of at-risk children in endemic countries and elimination in some regions. In this chapter, we discuss key biological and epidemiological processes involved in the schistosome transmission cycle and review the history of modelling schistosomiasis and the impact of mass drug administration, including both deterministic and stochastic approaches. In particular, we look at the potential impact of the WHO 2020 schistosomiasis treatment goals.
引用
收藏
页码:199 / 246
页数:48
相关论文
共 50 条
  • [1] A Mathematical Model for the Dynamics of Onchocerciasis With Vector Control and Mass Drug Administration
    Karuhanga, Martin
    Yiga, Victor
    JOURNAL OF APPLIED MATHEMATICS, 2024, 2024
  • [2] What is required in terms of mass drug administration to interrupt the transmission of schistosome parasites in regions of endemic infection?
    Anderson, R. M.
    Turner, H. C.
    Farrell, S. H.
    Yang, Jie
    Truscott, J. E.
    PARASITES & VECTORS, 2015, 8
  • [3] What is required in terms of mass drug administration to interrupt the transmission of schistosome parasites in regions of endemic infection?
    RM Anderson
    HC Turner
    SH Farrell
    Jie Yang
    JE Truscott
    Parasites & Vectors, 8
  • [4] ON THE APPLICATION OF MATHEMATICAL-MODELS OF SCHISTOSOME TRANSMISSION DYNAMICS .2. CONTROL
    WOOLHOUSE, MEJ
    ACTA TROPICA, 1992, 50 (03) : 189 - 204
  • [5] A comparison of two mathematical models of the impact of mass drug administration on the transmission and control of schistosomiasis
    Truscott, J. E.
    Gurarie, D.
    Alsallaq, R.
    Toor, J.
    Yoon, N.
    Farrell, S. H.
    Turner, H. C.
    Phillips, A. E.
    Aurelio, H. O.
    Ferro, J.
    King, C. H.
    Anderson, R. M.
    EPIDEMICS, 2017, 18 : 29 - 37
  • [6] The transmission dynamics of Strongyloides stercoralis and the impact of mass drug administration
    Collyer, Benjamin S.
    Anderson, Roy
    PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES, 2024, 379 (1894)
  • [7] MATHEMATICAL MODEL FOR THE CONTROL OF LYMPHATIC FILARIASIS TRANSMISSION DYNAMICS
    Oguntolu, Festus Abiodun
    Bolarin, Gbolahan
    Peter, Olumuyiwa James
    Enagi, Abdullah Idris
    Oshinubi, Kayode
    COMMUNICATIONS IN MATHEMATICAL BIOLOGY AND NEUROSCIENCE, 2021,
  • [8] Control problems of a mathematical model for schistosomiasis transmission dynamics
    Gao, Shujing
    Liu, Yujiang
    Luo, Youquan
    Xie, Dehui
    NONLINEAR DYNAMICS, 2011, 63 (03) : 503 - 512
  • [9] Control problems of a mathematical model for schistosomiasis transmission dynamics
    Shujing Gao
    Yujiang Liu
    Youquan Luo
    Dehui Xie
    Nonlinear Dynamics, 2011, 63 : 503 - 512
  • [10] Analysis of a mathematical model for the transmission dynamics of human melioidosis
    Terefe, Yibeltal Adane
    Kassa, Semu Mitiku
    INTERNATIONAL JOURNAL OF BIOMATHEMATICS, 2020, 13 (07)
12345