This guide was prepared for policy-makers at all levels of government and those who support them, such as technical units, experts and scientific advisory groups and teams responsible for collecting and managing various sources of national and subnational data. The guide is also relevant to the many stakeholders who support evidence-informed policy-making, including academic institutions with expertise in epidemiology, health systems, economics, and social and behavioural sciences; modelling groups; bi- and multilateral agencies; nongovernmental organizations; and funding institutions. The guide starts by describing the complex challenges faced by policy-makers in the context of epidemics and pandemics. Next, it makes a strong case for the adoption of modelling-based approaches to inform policy-making, with an emphasis on integrated models that merge epidemiological and economic considerations in a changing and uncertain environment. The guide concludes by proposing four initiatives that countries can consider to improve the development, refinement and use of integrated models as part of their efforts to strengthen epidemic and pandemic preparedness and response strategies.
Authors
World Health Organization, Organisation for Economic Co-operation and Development, World Bank
- Citation
- “ World Health Organization ; Organisation for Economic Co-operation and Development ; World Bank . 2024 . Strengthening Pandemic Preparedness and Response through Integrated Modelling . © Washington, DC: World Bank . http://hdl.handle.net/10986/41630 License: CC BY-NC-SA 3.0 IGO . ”
- Collection(s)
- Other Health Study
- DOI
- https://doi.org/10.1596/978-92-4-009088-0
- ISBN
- 978-92-4-009088-0
- Identifier externaldocumentum
- 34327559
- Identifier internaldocumentum
- 34327559
- Published in
- United States of America
- Report
- 190690
- Rights
- CC BY-NC-SA 3.0 IGO
- Rights Holder
- World Bank
- Rights URI
- https://creativecommons.org/licenses/by-nc-sa/3.0/igo/
- UNIT
- HNP Global (HHNGE)
- URI
- https://hdl.handle.net/10986/41630
- date disclosure
- 2024-05-30
- region geographical
- World
Files
Table of Contents
- Acknowledgements 11
- Abbreviations 13
- About this guide 14
- Key messages 16
- 1. Understanding the challenges of policy-making during epidemics and pandemics 19
- 1.1 Policy-making in a changing and uncertain environment 20
- 1.1.1 Understanding the complexity of pathogen transmission and disease severity 20
- 1.1.2 Identifying optimal policy responses in the face of uncertainty 21
- 1.2 Manage intense political and time pressure 23
- 1.2.1 Establishing whole-of-government and whole-of-society approaches 23
- 1.2.2 Identifying the best available evidence 24
- 1.2.3 Overcoming disciplinary silos 25
- 2. Understanding the role of integrated modelling in pandemic preparedness and response 29
- 2.1 A common framework for epidemiological and economic considerations in policy-making 30
- 2.1.1 Capturing a wider set of factors influencing the course and impacts of epidemics 30
- 2.1.2 Capturing key basic factors that drive differential impacts across populations 32
- 2.1.3 Formalizing ways to weigh the benefits and costs of various policies 32
- 2.2 A tool to compare the magnitude and uncertainty of effects of various policies 33
- 2.2.1 Designing and optimizing epidemic or pandemic control policies 33
- 2.2.2 Evaluating crisis-related economic policies 36
- 2.2.3 Making explicit assumptions about key uncertain elements 36
- 2.3 A tool to help strengthen pandemic preparedness and response in policy-making 37
- 2.3.1 Building, using and refining integrated models through an iterative process 37
- 2.3.2 Populating, calibrating and validating integrated models 39
- 3. Enhancing the production and use of integrated modelling to strengthen pandemic preparedness and response 42
- 3.1 Initiative 1: Formally incorporate integrated modelling into policy-making 43
- 3.1.1 Institutionalizing integrated modelling to inform policy-making 43
- 3.1.2 Assigning clear modelling-related responsibilities 44
- 3.1.3 Establishing procedures on the production of adequate integrated models 45
- 3.1.4 Creating an ecosystem of key data and data sources for policy-making 46
- 3.2 Initiative 2: Establish and maintain active communications 50
- 3.2.1 Creating formal communications channels for before, during and after epidemics 50
- 3.2.2 Communicating policy questions and how integrated modelling can help 50
- 3.2.3 Facilitating interactions at all stages of new model development 53
- 3.2.4 Creating active networks of policy-makers and modelling groups 53
- 3.2.5 Increasing integrated modelling literacy and communication across society 59
- 3.3 Initiative 3: Match the appropriate integrated model with the right question 60
- 3.3.1 Building base-modelling structures before epidemics and pandemics or during interepidemic or pandemic times 60
- 3.3.2 Building capabilities to determine how to match the appropriate models with the right policy questions 61
- 3.3.3 Ensuring integrated modelling can adapt to policy priorities during epidemics and pandemics 61
- 3.3.4 Creating procedures and systems for comparative integrated modelling 62
- 3.4 Initiative 4: Build local integrated modelling production capacity 62
- 3.4.1 Establishing networks that facilitate cooperation and collaboration between integrated modelling groups 63
- 3.4.2 Incorporating integrated modelling and real world decision-making into educational programmes 65
- 3.4.3 Creating new interdisciplinary modelling positions along with appropriate incentives to fill those positions 67
- Concluding remarks 69
- References 70
- Annex 1 Methods and declarations of interest 82
- Annex 2 COVID-19 integrated modelling 84
- Annex 3 Key data sources used in COVID-19 integrated models 87
- Annex 4 A framework to contextualize the four initiatives proposed to enhance the production and use of integrated modelling 92
- Annex 5 Ten key principles to help effective communication about modelling 98
- Fig. 1. Integration of epidemiological and economic considerations through in-person contacts, workforce productivity and behavioural change due to infection avoidance 31
- Fig. 2. Iterative process to build, use and refine integrated models 38
- Fig. 3. Four-step approach to engage policy-makers in model development and evolution 52
- Fig. 4. Collaboratory, an interactive knowledge-sharing space for the epidemic and pandemic intelligence community 59
- Fig. A2.1. Simplified representation of COVID-19 integrated modelling 84
- Fig. A4.1. A framework of country types along two dimensions: the degree to which modelling is currently used to inform policy-making and the current availability of modelling and integrated modelling 94
- Table 1. Projected health and short-term economic costs across all scenarios and additional GDP loss per death averted for each scenario compared to the next-less-stringent scenario 34
- Table 2. Steps in integrated modelling and how policy-makers and those supporting them can be involved 54
- Table A4.1. Summary of short-term activities by country type to formally incorporate integrated modelling into policy-making (Initiative 1) 93
- Table A4.2. Summary of short-term activities by country type to establish and maintain active communications (Initiative 2) 95
- Table A4.3. Summary of short-term activities by country type to match the appropriate integrated model with the right policy question (Initiative 3) 96
- Table A4.4. Summary of short-term activities by country type to build local integrated modelling production capacity (Initiative 4) 97
- Table A5.1. Ten key principles to help effective communication about modelling 98
- Box 1. PHSM 21
- Box 2. A decision framework to inform policy-making during the COVID-19 pandemic 24
- Box 3. Modelling the COVID-19 pandemic at the Bank of Italy 26
- Box 4. Integrated modelling to inform pandemic control strategies in Norway 28
- Box 5. Illustrative application of integrated modelling in a lower-middle-income country 34
- Box 6. The G20 Joint Finance and Health Task Force for pandemic prevention, preparedness and response 35
- Box 7. Approaches to calibrate the locally developed Tekanelo integrated model in South Africa 41
- Box 8. Calibration of an existing integrated model to inform policy-making in Sri Lanka 47
- Box 9. The FASSSTER data ecosystem and modelling platform in the Philippines 48
- Box 10. The Integrated Outbreak Analytics (IOA) initiative 49
- Box 11. A four-step approach to engage policy-makers during model development and evolution in Argentina 51
- Box 12. Sustained communication and collaboration between local and international modelling institutes, policy-makers and the WHO: the experience of the Philippines’ FASSSTER team 56
- Box 13. Collaboratory, an initiative of the WHO Hub for Pandemic and Epidemic Intelligence 58
- Box 14. The MIDAS network 64
- Box 15. Key success factors in translating modelled evidence into effective policy-making and policy impact 66
