Sylvia K Ofori, Emmanuelle A Dankwa, Emmanuel Ngwakongnwi, Alemayehu Amberbir, Abebe Bekele, Megan B Murray, Yonatan H Grad, Caroline O Buckee, Bethany L Hedt-Gauthier
{"title":"基于证据的决策:东非决策者传染病建模培训。","authors":"Sylvia K Ofori, Emmanuelle A Dankwa, Emmanuel Ngwakongnwi, Alemayehu Amberbir, Abebe Bekele, Megan B Murray, Yonatan H Grad, Caroline O Buckee, Bethany L Hedt-Gauthier","doi":"10.5334/aogh.4383","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>Mathematical modeling of infectious diseases is an important decision-making tool for outbreak control. However, in Africa, limited expertise reduces the use and impact of these tools on policy. Therefore, there is a need to build capacity in Africa for the use of mathematical modeling to inform policy. Here we describe our experience implementing a mathematical modeling training program for public health professionals in East Africa.</p><p><strong>Methods: </strong>We used a deliverable-driven and learning-by-doing model to introduce trainees to the mathematical modeling of infectious diseases. The training comprised two two-week in-person sessions and a practicum where trainees received intensive mentorship. Trainees evaluated the content and structure of the course at the end of each week, and this feedback informed the strategy for subsequent weeks.</p><p><strong>Findings: </strong>Out of 875 applications from 38 countries, we selected ten trainees from three countries - Rwanda (6), Kenya (2), and Uganda (2) - with guidance from an advisory committee. Nine trainees were based at government institutions and one at an academic organization. Participants gained skills in developing models to answer questions of interest and critically appraising modeling studies. At the end of the training, trainees prepared policy briefs summarizing their modeling study findings. These were presented at a dissemination event to policymakers, researchers, and program managers. All trainees indicated they would recommend the course to colleagues and rated the quality of the training with a median score of 9/10.</p><p><strong>Conclusions: </strong>Mathematical modeling training programs for public health professionals in Africa can be an effective tool for research capacity building and policy support to mitigate infectious disease burden and forecast resources. Overall, the course was successful, owing to a combination of factors, including institutional support, trainees' commitment, intensive mentorship, a diverse trainee pool, and regular evaluations.</p>","PeriodicalId":48857,"journal":{"name":"Annals of Global Health","volume":null,"pages":null},"PeriodicalIF":2.6000,"publicationDate":"2024-03-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10959131/pdf/","citationCount":"0","resultStr":"{\"title\":\"Evidence-based Decision Making: Infectious Disease Modeling Training for Policymakers in East Africa.\",\"authors\":\"Sylvia K Ofori, Emmanuelle A Dankwa, Emmanuel Ngwakongnwi, Alemayehu Amberbir, Abebe Bekele, Megan B Murray, Yonatan H Grad, Caroline O Buckee, Bethany L Hedt-Gauthier\",\"doi\":\"10.5334/aogh.4383\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Mathematical modeling of infectious diseases is an important decision-making tool for outbreak control. However, in Africa, limited expertise reduces the use and impact of these tools on policy. Therefore, there is a need to build capacity in Africa for the use of mathematical modeling to inform policy. Here we describe our experience implementing a mathematical modeling training program for public health professionals in East Africa.</p><p><strong>Methods: </strong>We used a deliverable-driven and learning-by-doing model to introduce trainees to the mathematical modeling of infectious diseases. The training comprised two two-week in-person sessions and a practicum where trainees received intensive mentorship. Trainees evaluated the content and structure of the course at the end of each week, and this feedback informed the strategy for subsequent weeks.</p><p><strong>Findings: </strong>Out of 875 applications from 38 countries, we selected ten trainees from three countries - Rwanda (6), Kenya (2), and Uganda (2) - with guidance from an advisory committee. Nine trainees were based at government institutions and one at an academic organization. Participants gained skills in developing models to answer questions of interest and critically appraising modeling studies. At the end of the training, trainees prepared policy briefs summarizing their modeling study findings. These were presented at a dissemination event to policymakers, researchers, and program managers. All trainees indicated they would recommend the course to colleagues and rated the quality of the training with a median score of 9/10.</p><p><strong>Conclusions: </strong>Mathematical modeling training programs for public health professionals in Africa can be an effective tool for research capacity building and policy support to mitigate infectious disease burden and forecast resources. 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Evidence-based Decision Making: Infectious Disease Modeling Training for Policymakers in East Africa.
Background: Mathematical modeling of infectious diseases is an important decision-making tool for outbreak control. However, in Africa, limited expertise reduces the use and impact of these tools on policy. Therefore, there is a need to build capacity in Africa for the use of mathematical modeling to inform policy. Here we describe our experience implementing a mathematical modeling training program for public health professionals in East Africa.
Methods: We used a deliverable-driven and learning-by-doing model to introduce trainees to the mathematical modeling of infectious diseases. The training comprised two two-week in-person sessions and a practicum where trainees received intensive mentorship. Trainees evaluated the content and structure of the course at the end of each week, and this feedback informed the strategy for subsequent weeks.
Findings: Out of 875 applications from 38 countries, we selected ten trainees from three countries - Rwanda (6), Kenya (2), and Uganda (2) - with guidance from an advisory committee. Nine trainees were based at government institutions and one at an academic organization. Participants gained skills in developing models to answer questions of interest and critically appraising modeling studies. At the end of the training, trainees prepared policy briefs summarizing their modeling study findings. These were presented at a dissemination event to policymakers, researchers, and program managers. All trainees indicated they would recommend the course to colleagues and rated the quality of the training with a median score of 9/10.
Conclusions: Mathematical modeling training programs for public health professionals in Africa can be an effective tool for research capacity building and policy support to mitigate infectious disease burden and forecast resources. Overall, the course was successful, owing to a combination of factors, including institutional support, trainees' commitment, intensive mentorship, a diverse trainee pool, and regular evaluations.
期刊介绍:
ANNALS OF GLOBAL HEALTH is a peer-reviewed, open access journal focused on global health. The journal’s mission is to advance and disseminate knowledge of global health. Its goals are improve the health and well-being of all people, advance health equity and promote wise stewardship of the earth’s environment.
The journal is published by the Boston College Global Public Health Program. It was founded in 1934 by the Icahn School of Medicine at Mount Sinai as the Mount Sinai Journal of Medicine. It is a partner journal of the Consortium of Universities for Global Health.