Impacts of seasonal flooding on geographical access to maternal healthcare in the Barotse Floodplain, Zambia.

IF 3 2区医学 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH International Journal of Health Geographics Pub Date : 2023-07-31 DOI:10.1186/s12942-023-00338-3

Elizabeth Jade Mroz, Thomas Willis, Chris Thomas, Craig Janes, Douglas Singini, Mwimanenwa Njungu, Mark Smith

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Abstract

Background: Seasonal floods pose a commonly-recognised barrier to women's access to maternal services, resulting in increased morbidity and mortality. Despite their importance, previous GIS models of healthcare access have not adequately accounted for floods. This study developed new methodologies for incorporating flood depths, velocities, and extents produced with a flood model into network- and raster-based health access models. The methodologies were applied to the Barotse Floodplain to assess flood impact on women's walking access to maternal services and vehicular emergency referrals for a monthly basis between October 2017 and October 2018.

Methods: Information on health facilities were acquired from the Ministry of Health. Population density data on women of reproductive age were obtained from the High Resolution Settlement Layer. Roads were a fusion of OpenStreetMap and data manually delineated from satellite imagery. Monthly information on floodwater depth and velocity were obtained from a flood model for 13-months. Referral driving times between delivery sites and EmOC were calculated with network analysis. Walking times to the nearest maternal services were calculated using a cost-distance algorithm.

Results: The changing distribution of floodwaters impacted the ability of women to reach maternal services. At the peak of the dry season (October 2017), 55%, 19%, and 24% of women had walking access within 2-hrs to their nearest delivery site, EmOC location, and maternity waiting shelter (MWS) respectively. By the flood peak, this dropped to 29%, 14%, and 16%. Complete inaccessibility became stark with 65%, 76%, and 74% unable to access any delivery site, EmOC, and MWS respectively. The percentage of women that could be referred by vehicle to EmOC from a delivery site within an hour also declined from 65% in October 2017 to 23% in March 2018.

Conclusions: Flooding greatly impacted health access, with impacts varying monthly as the floodwave progressed. Additional validation and application to other regions is still needed, however our first results suggest the use of a hydrodynamic model permits a more detailed representation of floodwater impact and there is great potential for generating predictive models which will be necessary to consider climate change impacts on future health access.

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季节性洪水对赞比亚巴罗泽洪泛区产妇保健地理获取的影响。

背景:季节性洪水对妇女获得孕产妇服务构成普遍公认的障碍，导致发病率和死亡率上升。尽管它们很重要，但以前的GIS医疗保健获取模型并没有充分考虑洪水。这项研究开发了新的方法，将洪水模型产生的洪水深度、速度和范围纳入基于网络和栅格的健康访问模型。在2017年10月至2018年10月期间，将这些方法应用于巴罗泽洪泛区，以评估洪水对妇女步行获得孕产妇服务和车辆紧急转诊的影响。方法:从卫生部获取卫生设施信息。育龄妇女的人口密度数据来自高分辨率定居层。道路是OpenStreetMap和从卫星图像中手动划定的数据的融合。通过13个月的洪水模型获得了洪水深度和速度的月信息。通过网络分析计算配送点与EmOC之间的转诊驾驶时间。使用成本-距离算法计算到最近的孕产妇服务的步行时间。结果:洪水分布的变化影响了妇女获得孕产妇服务的能力。在旱季高峰期(2017年10月)，分别有55%、19%和24%的妇女可以在2小时内步行到达最近的分娩地点、产科急诊中心地点和待产场所(MWS)。到了洪峰，这一比例分别降至29%、14%和16%。完全无法访问变得十分明显，分别有65%、76%和74%的人无法访问任何交付站点、EmOC和MWS。可以在一小时内从分娩地点乘车转到产科急诊的妇女比例也从2017年10月的65%下降到2018年3月的23%。结论:洪水极大地影响了卫生服务的可及性，其影响随洪水的进展而逐月变化。其他地区还需要进一步的验证和应用，但我们的初步结果表明，使用水动力学模型可以更详细地表示洪水影响，并且有很大的潜力产生预测模型，这将是考虑气候变化对未来健康获取的影响所必需的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Health Geographics PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH -

CiteScore

10.20

自引率

2.00%

发文量

审稿时长

12 weeks

期刊介绍： A leader among the field, International Journal of Health Geographics is an interdisciplinary, open access journal publishing internationally significant studies of geospatial information systems and science applications in health and healthcare. With an exceptional author satisfaction rate and a quick time to first decision, the journal caters to readers across an array of healthcare disciplines globally. International Journal of Health Geographics welcomes novel studies in the health and healthcare context spanning from spatial data infrastructure and Web geospatial interoperability research, to research into real-time Geographic Information Systems (GIS)-enabled surveillance services, remote sensing applications, spatial epidemiology, spatio-temporal statistics, internet GIS and cyberspace mapping, participatory GIS and citizen sensing, geospatial big data, healthy smart cities and regions, and geospatial Internet of Things and blockchain.