UNC Water and Health Conference

Presenter: Habib Yakubu

Periodically, resource-challenged municipal governments in urban areas of low-income countries face decisions on how to set priorities for sanitation investments and focus resources for impact. This is primarily due to their lack of knowledge of existing innovative evidence- based sanitation tools. SaniPath exposure assessment tool evaluates the public health risks from poor sanitation and unsafe fecal sludge management in low-income urban areas. It has been deployed in 43 neighborhoods in 9 cities ; Accra, Ghana; Vellore, India; Maputo, Mozambique; Siem Reap, Cambodia; Dhaka, Bangladesh; Atlanta, United States; Lusaka, Zambia; Kampala, Uganda and Kumasi; Ghana. The most recent shit flows diagram indicates that only an estimated 45% of the fecal sludge is treated. Four neighborhoods of varying geographic and socio economic characteristics were selected for the deployment of the SaniPath tool based on extensive engagement with Kumasi Metropolitan Assembly (KMA). Trained environmental health assistants collected environmental samples and behavior data from multiple pathways in Moshie Zongo, Dakodwom, Fante Newtown and Ahodwo. The nine pathways investigated were; river water, street food, raw produce, drinking water, bathing water, open drain water, soil, public latrines and floodwater. The unit of analysis of the tool is exposure to fecal contamination. Exposure is a measurement of the average amount of E.coli ingested per month (dose) and the percent of the population exposed to fecal contamination per pathway. The most common dominant exposure pathway for children across all the four neighborhoods was open drains. A large percent of the child population was exposed, ranging from 85% to 95% and a high average dose between 10^6 to 10^8 colony forming units (CFU). For adults, the most dominant pathway varied across all the four Page 50 of 56 neighborhoods. Raw produce was the most common dominant pathway in Moshie Zongo, with 78% of the adult population exposed, and a high dose of >10^7. Bathing water was the most dominant pathway in Fante Newtown; with 81% of the population exposed and a high dose of >10^7. Open drains was the most dominant pathway in Ahodwo and Dakodwom with population exposed >61% and high dose values > 10^6. KMA has used this information to take immediate action in two neighborhoods. Firstly, they investigated the source of contamination of a surface water and sanctioned the property owner who had illegally connected directly a shared latrine’s fecal waste into a community river. Secondly, KMA rolled out a school hygiene program to educate primary school students on good hygiene practices within their school compound, in public spaces around open drains and in school toilets. There are other ongoing plans to use the results to inform their sanitation planning, practice and investments. These actions, show that with commitment and access to evidence based sanitation tools, municipal governments in urban areas are capable of using evidence based sanitation tools to prioritize and focus their sanitation investments.

Workshop convened by: Emory University Center for Global Safe WASH, Lusaka City Council, Kampala Capital City Authority, Makerere University School of Public Health, icddr,b, TREND Ghana, Kumasi Metropolitan Assembly, World Bank

Workshop Background

Recent trends in urbanization and changing population dynamics have led to a dramatic rise in populations living in urban areas throughout Africa and Asia. These urbanizing populations settle in areas in which water, sanitation and hygiene systems are already overburdened, and many live in unplanned or illegal urban or peri-urban settlements. Rapid urbanization has outpaced sanitation services and fecal sludge management (FSM) in many cities in South Asia and Sub-Saharan Africa leading to gaps in FSM along the sanitation value chain. Shit Flow Diagrams have highlighted the points where unsafely-managed fecal waste enters the environment, but equally important is understanding where this waste ends up and the public health risks associated with its unsafe management. Sanitation decision-makers currently have a number of tools at their disposal to increase the availability and accessibility of data to support evidence-based decision-making. However, there are few opportunities to share the results of these tools and how they have been, and can be, used to influence sanitation investment, policies, and decision -making practices. This workshop allowed participants to learn about the approaches, successes, and challenges of organizations who aimed to utilize public health data in urban sanitation decision-making and to engage with fellow participants on ways to improve evidence-based decision-making in the sanitation sector. The convening organizations have all utilized the SaniPath Exposure Assessment Tool to understand exposure to fecal contamination in urban and peri-urban areas and shared their experience using this tool in the framework of factors that influence decision-making.

Wordcloud of discussion topics from workshop notes

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S Raj, Y Wang, A White, N Kishore, J Michiel, C Siesel, CL Moe

UNC Water and Health Conference (October 2018) Suraja Raj presented a poster at the UNC Water and Health Conference in October, 2018, highlighting new developments related to the new SaniPath Tool. The SaniPath Tool examines human exposure to fecal contamination in low-resource urban settings. It provides guidance for primary data collection, automated exposure analysis, and results visualizations that are accessible to people from a range of scientific backgrounds. This poster describes the development of a tool that allows users to plan a SaniPath deployment, set up and manage mobile data collection, analyze results, and generate reports. The tool guides users through steps of implementing the tool–from planning to data analysis. The tool is composed of a project planning and management interface, mobile data collection and data repository, and a data analysis and visualization dashboard. The tool can be customized to suit context-specific data collection needs. The SaniPath Tool is built on an integrated system of existing open source technologies and a tailored project management interface. It guides users through project configuration, training, and deployment by automating the customization and analysis processes. The Tool also uses an open source mobile data collection software, KoboToolbox (KT), which provides the backbone of data collection and storage. Data is collected via downloadable mobile forms used on Android devices and is uploaded to KT, which is paired with Enketo for online web data entry or editing. The tool automatically retrieves data from KT and generates exposure assessments for each study site and exposure pathway. Users can view and analyze the collected data, access data visualizations, and create a draft final report. The services are deployed on Amazon Web Services (AWS) infrastructure and backups are stored in S3 buckets for redundant data storage. The SaniPath Tool is an innovative use of mHealth in the WASH sector and can serve as an example of how open source software can be used to synthesize and analyze complex information and encourage public health evidence-based decision-making about urban sanitation investment.

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