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Risk‐Based Input‐Output Analysis of Influenza Epidemic Consequences on Interdependent Workforce Sectors

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  • Joost R. Santos
  • Larissa May
  • Amine El Haimar

Abstract

Outbreaks of contagious diseases underscore the ever‐looming threat of new epidemics. Compared to other disasters that inflict physical damage to infrastructure systems, epidemics can have more devastating and prolonged impacts on the population. This article investigates the interdependent economic and productivity risks resulting from epidemic‐induced workforce absenteeism. In particular, we develop a dynamic input‐output model capable of generating sector‐disaggregated economic losses based on different magnitudes of workforce disruptions. An ex post analysis of the 2009 H1N1 pandemic in the national capital region (NCR) reveals the distribution of consequences across different economic sectors. Consequences are categorized into two metrics: (i) economic loss, which measures the magnitude of monetary losses incurred in each sector, and (ii) inoperability, which measures the normalized monetary losses incurred in each sector relative to the total economic output of that sector. For a simulated mild pandemic scenario in NCR, two distinct rankings are generated using the economic loss and inoperability metrics. Results indicate that the majority of the critical sectors ranked according to the economic loss metric comprise of sectors that contribute the most to the NCR's gross domestic product (e.g., federal government enterprises). In contrast, the majority of the critical sectors generated by the inoperability metric include sectors that are involved with epidemic management (e.g., hospitals). Hence, prioritizing sectors for recovery necessitates consideration of the balance between economic loss, inoperability, and other objectives. Although applied specifically to the NCR, the proposed methodology can be customized for other regions.

Suggested Citation

  • Joost R. Santos & Larissa May & Amine El Haimar, 2013. "Risk‐Based Input‐Output Analysis of Influenza Epidemic Consequences on Interdependent Workforce Sectors," Risk Analysis, John Wiley & Sons, vol. 33(9), pages 1620-1635, September.
    • Handle: RePEc:wly:riskan:v:33:y:2013:i:9:p:1620-1635
    DOI: 10.1111/risa.12002
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    References listed on IDEAS

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    1. Joost R. Santos & Yacov Y. Haimes & Chenyang Lian, 2007. "A Framework for Linking Cybersecurity Metrics to the Modeling of Macroeconomic Interdependencies," Risk Analysis, John Wiley & Sons, vol. 27(5), pages 1283-1297, October.
    2. Joanna Resurreccion & Joost R. Santos, 2012. "Multiobjective Prioritization Methodology and Decision Support System for Evaluating Inventory Enhancement Strategies for Disrupted Interdependent Sectors," Risk Analysis, John Wiley & Sons, vol. 32(10), pages 1673-1692, October.
    3. Adam Rose & Shu‐Yi Liao, 2005. "Modeling Regional Economic Resilience to Disasters: A Computable General Equilibrium Analysis of Water Service Disruptions," Journal of Regional Science, Wiley Blackwell, vol. 45(1), pages 75-112, February.
    4. Pu Jiang & Yacov Y. Haimes, 2004. "Risk Management for Leontief‐Based Interdependent Systems," Risk Analysis, John Wiley & Sons, vol. 24(5), pages 1215-1229, October.
    5. Smith, Richard D. & Keogh-Brown, Marcus R. & Barnett, Tony, 2011. "Estimating the economic impact of pandemic influenza: An application of the computable general equilibrium model to the UK," Social Science & Medicine, Elsevier, vol. 73(2), pages 235-244, July.
    6. Barker, Kash & Haimes, Yacov Y., 2009. "Assessing uncertainty in extreme events: Applications to risk-based decision making in interdependent infrastructure sectors," Reliability Engineering and System Safety, Elsevier, vol. 94(4), pages 819-829.
    7. Neil M. Ferguson & Derek A. T. Cummings & Christophe Fraser & James C. Cajka & Philip C. Cooley & Donald S. Burke, 2006. "Strategies for mitigating an influenza pandemic," Nature, Nature, vol. 442(7101), pages 448-452, July.
    8. Barker, Kash & Santos, Joost R., 2010. "Measuring the efficacy of inventory with a dynamic input-output model," International Journal of Production Economics, Elsevier, vol. 126(1), pages 130-143, July.
    9. Marcus Keogh-Brown & Richard Smith & John Edmunds & Philippe Beutels, 2010. "The macroeconomic impact of pandemic influenza: estimates from models of the United Kingdom, France, Belgium and The Netherlands," The European Journal of Health Economics, Springer;Deutsche Gesellschaft für Gesundheitsökonomie (DGGÖ), vol. 11(6), pages 543-554, December.
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    2. Giammetti, Raffaele & Papi, Luca & Teobaldelli, Désirée & Ticchi, Davide, 2022. "The optimality of age-based lockdown policies," Journal of Policy Modeling, Elsevier, vol. 44(3), pages 722-738.

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