Dam-mediated flooding impact on outpatient attendance and diarrhoea cases in northern Ghana: a mixed methods study
Dam-mediated flooding impact on outpatient attendance and diarrhoea cases in northern Ghana: a mixed methods study
Background: floods are the most frequently occurring natural disaster and constitute a significant public health risk. Several operational satellite-based flood detection systems quantify flooding extent, but it is unclear how far the choice of satellite-based flood product affects the findings of epidemiological studies of associated public health risks. Few studies of flooding’s health impacts have used mixed methods to enrich understanding of these impacts. This study therefore aims to evaluate the relationship between two satellite-derived flood products with outpatient attendance and diarrhoeal disease in northern Ghana, identifying plausible reasons for observed relationships via qualitative interviews.
Methods: a convergent parallel mixed methods design combined an ecological time series with focus group discussions and key informant interviews. Through an ecological time series component, monthly outpatient attendance and diarrhoea case counts from health facilities in two flood-prone districts for 2016–2020 were integrated with monthly flooding map layers classified via the Moderate Resolution Imaging Spectroradiometer (MODIS) and Landsat satellite sensors. The relationship between reported diarrhoea and outpatient attendance with flooding was examined using Poisson regression, controlling for seasonality and facility catchment population. Four focus group discussions with affected community members and four key informant interviews with health professionals explored flooding’s impact on healthcare delivery and access.
Results: flooding detected via Landsat better predicted outpatient attendance and diarrhoea than flooding via MODIS. Outpatient attendance significantly reduced as LandSat-derived flood area per facility catchment increased (adjusted Incidence Rate Ratio = 0.78, 95% CI: 0.61–0.99, p < 0.05), whilst reported diarrhoea significantly increased with flood area per facility catchment (adjusted Incidence Rate Ratio = 4.27, 95% CI: 2.74—6.63, p < 0.001). Key informants noted how flooding affected access to health services as patients and health professionals could not reach the health facility and emergency referrals were unable to travel.
Conclusions: the significant reduction in outpatient attendance during flooding suggests that flooding impairs healthcare delivery. The relationship is sensitive to the choice of satellite-derived flood product, so future studies should consider integrating multiple sources of satellite imagery for more robust exposure assessment. Health teams and communities should plan spatially targeted flood mitigation and health system adaptation strategies that explicitly address population and workforce mobility issues.
Climate, Diarrhoea, Floods, Geographic information systems, Health information systems
Dotse-Gborgbortsi, Winfred
02d3e356-268e-4650-9fb9-9638ccdb6eff
Dwomoh, Duah
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Asamoah, Moses
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Gyimah, Faustina
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Dzodzomenyo, Mawuli
f7969c6b-5999-448b-befa-e1c2e0287895
Li, Chengxiu
adaf46fc-1573-4c50-bd7f-b2e7ed048f7e
Akowuaha, George
945e31f9-43b4-40ca-b80a-8b5bbe3097aa
Ofosu, Anthony
32461b6f-8de7-4289-bd29-923f9f042d53
Wright, Jim
94990ecf-f8dd-4649-84f2-b28bf272e464
17 November 2022
Dotse-Gborgbortsi, Winfred
02d3e356-268e-4650-9fb9-9638ccdb6eff
Dwomoh, Duah
0d2e9843-b757-471f-8503-05e26bb4b4bd
Asamoah, Moses
8bc7f17a-7432-44e0-ab9f-c2dd1cee1aaf
Gyimah, Faustina
6ea77d28-5256-469f-b20c-7071d57b3f48
Dzodzomenyo, Mawuli
f7969c6b-5999-448b-befa-e1c2e0287895
Li, Chengxiu
adaf46fc-1573-4c50-bd7f-b2e7ed048f7e
Akowuaha, George
945e31f9-43b4-40ca-b80a-8b5bbe3097aa
Ofosu, Anthony
32461b6f-8de7-4289-bd29-923f9f042d53
Wright, Jim
94990ecf-f8dd-4649-84f2-b28bf272e464
Dotse-Gborgbortsi, Winfred, Dwomoh, Duah, Asamoah, Moses, Gyimah, Faustina, Dzodzomenyo, Mawuli, Li, Chengxiu, Akowuaha, George, Ofosu, Anthony and Wright, Jim
(2022)
Dam-mediated flooding impact on outpatient attendance and diarrhoea cases in northern Ghana: a mixed methods study.
BMC Public Health, 22 (1), [2108].
(doi:10.1186/s12889-022-14568-w).
Abstract
Background: floods are the most frequently occurring natural disaster and constitute a significant public health risk. Several operational satellite-based flood detection systems quantify flooding extent, but it is unclear how far the choice of satellite-based flood product affects the findings of epidemiological studies of associated public health risks. Few studies of flooding’s health impacts have used mixed methods to enrich understanding of these impacts. This study therefore aims to evaluate the relationship between two satellite-derived flood products with outpatient attendance and diarrhoeal disease in northern Ghana, identifying plausible reasons for observed relationships via qualitative interviews.
Methods: a convergent parallel mixed methods design combined an ecological time series with focus group discussions and key informant interviews. Through an ecological time series component, monthly outpatient attendance and diarrhoea case counts from health facilities in two flood-prone districts for 2016–2020 were integrated with monthly flooding map layers classified via the Moderate Resolution Imaging Spectroradiometer (MODIS) and Landsat satellite sensors. The relationship between reported diarrhoea and outpatient attendance with flooding was examined using Poisson regression, controlling for seasonality and facility catchment population. Four focus group discussions with affected community members and four key informant interviews with health professionals explored flooding’s impact on healthcare delivery and access.
Results: flooding detected via Landsat better predicted outpatient attendance and diarrhoea than flooding via MODIS. Outpatient attendance significantly reduced as LandSat-derived flood area per facility catchment increased (adjusted Incidence Rate Ratio = 0.78, 95% CI: 0.61–0.99, p < 0.05), whilst reported diarrhoea significantly increased with flood area per facility catchment (adjusted Incidence Rate Ratio = 4.27, 95% CI: 2.74—6.63, p < 0.001). Key informants noted how flooding affected access to health services as patients and health professionals could not reach the health facility and emergency referrals were unable to travel.
Conclusions: the significant reduction in outpatient attendance during flooding suggests that flooding impairs healthcare delivery. The relationship is sensitive to the choice of satellite-derived flood product, so future studies should consider integrating multiple sources of satellite imagery for more robust exposure assessment. Health teams and communities should plan spatially targeted flood mitigation and health system adaptation strategies that explicitly address population and workforce mobility issues.
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Bagre_dam_bmc_public_health
- Accepted Manuscript
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s12889-022-14568-w
- Version of Record
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Accepted/In Press date: 17 October 2022
Published date: 17 November 2022
Additional Information:
© 2022. The Author(s).
Keywords:
Climate, Diarrhoea, Floods, Geographic information systems, Health information systems
Identifiers
Local EPrints ID: 472744
URI: http://eprints.soton.ac.uk/id/eprint/472744
ISSN: 1471-2458
PURE UUID: fcec16f3-c078-4c6b-bffa-3287359e6f13
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Date deposited: 16 Dec 2022 17:38
Last modified: 10 Apr 2024 02:12
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Contributors
Author:
Winfred Dotse-Gborgbortsi
Author:
Duah Dwomoh
Author:
Moses Asamoah
Author:
Faustina Gyimah
Author:
Mawuli Dzodzomenyo
Author:
George Akowuaha
Author:
Anthony Ofosu
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