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An approach to integrate population mobility patterns and sociocultural factors in communicable disease preparedness and response

Author

Listed:
  • Rebecca D. Merrill

    (US Centers for Disease Control and Prevention)

  • Ali Imorou Bah Chabi

    (Abidjan Lagos Corridor Organization)

  • Elvira McIntyre

    (Perspecta and US Centers for Disease Control and Prevention)

  • Jules Venance Kouassi

    (Abidjan Lagos Corridor Organization)

  • Martial Monney Alleby

    (Abidjan Lagos Corridor Organization)

  • Corrine Codja

    (Abidjan Lagos Corridor Organization)

  • Ouyi Tante

    (Ministry of Health)

  • Godjedo Togbemabou Primous Martial

    (Ministry of Health)

  • Idriss Kone

    (Abidjan Lagos Corridor Organization)

  • Sarah Ward

    (US Centers for Disease Control and Prevention)

  • Tamekloe Tsidi Agbeko

    (Ministry of Health)

  • Clement Glèlè Kakaı

    (Ministry of Health)

Abstract

Complex human movement patterns driven by a range of economic, health, social, and environmental factors influence communicable disease spread. Further, cross-border movement impacts disparate public health systems of neighboring countries, making an effective response to disease importation or exportation more challenging. Despite the array of quantitative techniques and social science approaches available to analyze movement patterns, there continues to be a dearth of methods within the applied public health setting to gather and use information about community-level mobility dynamics. Population Connectivity Across Borders (PopCAB) is a rapidly-deployable toolkit to characterize multisectoral movement patterns through community engagement using focus group discussions or key informant interviews, each with participatory mapping, and apply the results to tailor preparedness and response strategies. The Togo and Benin Ministries of Health (MOH), in collaboration with the Abidjan Lagos Corridor Organization and the US Centers for Disease Control and Prevention, adapted and applied PopCAB to inform cross-border preparedness and response strategies for multinational Lassa fever outbreaks. Initially, the team implemented binational, national-level PopCAB activities in March 2017, highlighting details about a circular migration pathway across northern Togo, Benin, and Nigeria. After applying those results to respond to a cross-border Lassa fever outbreak in February 2018, the team designed an expanded PopCAB initiative in April 2018. In eight days, they trained 54 MOH staff who implemented 21 PopCAB focus group discussions in 14 cities with 224 community-level participants representing six stakeholder groups. Using the newly-identified 167 points of interest and 176 routes associated with a circular migration pathway across Togo, Benin, and Nigeria, the Togo and Benin MOH refined their cross-border information sharing and collaboration processes for Lassa fever and other communicable diseases, selected health facilities with increased community connectivity for enhanced training, and identified techniques to better integrate traditional healers in surveillance and community education strategies. They also integrated the final toolkit in national- and district-level public health preparedness plans. Integrating PopCAB in public health practice to better understand and accommodate population movement patterns can help countries mitigate the international spread of disease in support of improved global health security and International Health Regulations requirements.

Suggested Citation

  • Rebecca D. Merrill & Ali Imorou Bah Chabi & Elvira McIntyre & Jules Venance Kouassi & Martial Monney Alleby & Corrine Codja & Ouyi Tante & Godjedo Togbemabou Primous Martial & Idriss Kone & Sarah Ward, 2021. "An approach to integrate population mobility patterns and sociocultural factors in communicable disease preparedness and response," Palgrave Communications, Palgrave Macmillan, vol. 8(1), pages 1-11, December.
    • Handle: RePEc:pal:palcom:v:8:y:2021:i:1:d:10.1057_s41599-020-00704-7
    DOI: 10.1057/s41599-020-00704-7
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    References listed on IDEAS

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    1. Moritz U. G. Kraemer & Adam Sadilek & Qian Zhang & Nahema A. Marchal & Gaurav Tuli & Emily L. Cohn & Yulin Hswen & T. Alex Perkins & David L. Smith & Robert C. Reiner & John S. Brownstein, 2020. "Mapping global variation in human mobility," Nature Human Behaviour, Nature, vol. 4(8), pages 800-810, August.
    2. Benjamin Armbruster & Margaret Brandeau, 2007. "Contact tracing to control infectious disease: when enough is enough," Health Care Management Science, Springer, vol. 10(4), pages 341-355, December.
    3. Edward C. Holmes & Gytis Dudas & Andrew Rambaut & Kristian G. Andersen, 2016. "The evolution of Ebola virus: Insights from the 2013–2016 epidemic," Nature, Nature, vol. 538(7624), pages 193-200, October.
    4. Vanessa Dreier & Papa Sow, 2015. "Bialaba Migrants from the Northern of Benin to Nigeria, in Search of Productive Land—Insights for Living with Climate Change," Sustainability, MDPI, vol. 7(3), pages 1-29, March.
    5. Mattia Mazzoli & Boris Diechtiareff & Antònia Tugores & Willian Wives & Natalia Adler & Pere Colet & José J Ramasco, 2020. "Migrant mobility flows characterized with digital data," PLOS ONE, Public Library of Science, vol. 15(3), pages 1-20, March.
    6. A P Riascos & José L Mateos, 2017. "Emergence of encounter networks due to human mobility," PLOS ONE, Public Library of Science, vol. 12(10), pages 1-22, October.
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    1. Yaming Zhang & Xiaoyu Guo & Yanyuan Su & Yaya Hamadou Koura H & Na Wang & Wenjie Song, 2023. "Changes in spatiotemporal pattern and network characteristics in population migration of China’s cities before and after COVID-19," Palgrave Communications, Palgrave Macmillan, vol. 10(1), pages 1-17, December.

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