Spatial clustering in the spatio-temporal dynamics of endemic cholera Public Deposited

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  • Ruiz-Moreno, Diego
    • Other Affiliation: Department of Ecology and Evolutionary Biology, University of Michigan, Ann Arbor, MI, USA
  • Emch, Michael
    • Affiliation: College of Arts and Sciences, Department of Geography
  • Pascual, Mercedes
    • Other Affiliation: Department of Ecology and Evolutionary Biology, University of Michigan, Ann Arbor, MI, USA; Howard Hughes Medical Institute, 4000 Jones Bridge Road Chevy Chase, MD, USA
  • Yunus, Mohammad
    • Other Affiliation: ICDDR, B, Centre for Health and Population Research, Dhaka, Bangladesh
  • Abstract Background The spatio-temporal patterns of infectious diseases that are environmentally driven reflect the combined effects of transmission dynamics and environmental heterogeneity. They contain important information on different routes of transmission, including the role of environmental reservoirs. Consideration of the spatial component in infectious disease dynamics has led to insights on the propagation of fronts at the level of counties in rabies in the US, and the metapopulation behavior at the level of cities in childhood diseases such as measles in the UK, both at relatively coarse scales. As epidemiological data on individual infections become available, spatio-temporal patterns can be examined at higher resolutions. Methods The extensive spatio-temporal data set for cholera in Matlab, Bangladesh, maps the individual location of cases from 1983 to 2003. This unique record allows us to examine the spatial structure of cholera outbreaks, to address the role of primary transmission, occurring from an aquatic reservoir to the human host, and that of secondary transmission, involving a feedback between current and past levels of infection. We use Ripley's K and L indices and bootstrapping methods to evaluate the occurrence of spatial clustering in the cases during outbreaks using different temporal windows. The spatial location of cases was also confronted against the spatial location of water sources. Results Spatial clustering of cholera cases was detected at different temporal and spatial scales. Cases relative to water sources also exhibit spatial clustering. Conclusions The clustering of cases supports an important role of secondary transmission in the dynamics of cholera epidemics in Matlab, Bangladesh. The spatial clustering of cases relative to water sources, and its timing, suggests an effective role of water reservoirs during the onset of cholera outbreaks. Once primary transmission has initiated an outbreak, secondary transmission takes over and plays a fundamental role in shaping the epidemics in this endemic area.
Date of publication
  • 20205935
  • doi:10.1186/1471-2334-10-51
Resource type
  • Article
Rights statement
  • In Copyright
Rights holder
  • Diego Ruiz-Moreno et al.; licensee BioMed Central Ltd.
Journal title
  • BMC Infectious Diseases
Journal volume
  • 10
Journal issue
  • 1
Page start
  • 51
  • English
Is the article or chapter peer-reviewed?
  • Yes
  • 1471-2334
Bibliographic citation
  • BMC Infectious Diseases. 2010 Mar 06;10(1):51
  • Open Access
  • BioMed Central Ltd

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