Multiple models for outbreak decision support in the face of uncertainty

Katriona Shea; Rebecca K. Borchering; William J.M. Probert; Emily Howerton; Tiffany L. Bogich; Shou Li Li; Willem G. van Panhuis; Cecile Viboud; Ricardo Aguás; Artur A. Belov; Sanjana H. Bhargava; Sean M. Cavany; Joshua C. Chang; Cynthia Chen; Jinghui Chen; Shi Chen; Yang Quan Chen; Lauren M. Childs; Carson C. Chow; Isabel Crooker; Sara Y. Del Valle; Guido España; Geoffrey Fairchild; Richard C. Gerkin; Timothy C. Germann; Quanquan Gu; Xiangyang Guan; Lihong Guo; Gregory R. Hart; Thomas J. Hladish; Nathaniel Hupert; Daniel Janies; Cliff C. Kerr; Daniel J. Klein; Eili Y. Klein; Gary Lin; Carrie Manore; Lauren Ancel Meyers; John E. Mittler; Kunpeng Mu; Rafael C. Núñez; Rachel J. Oidtman; Remy Pasco; Ana Pastore y Piontti; Rajib Paul; Carl A.B. Pearson; Dianela R. Perdomo; T. Alex Perkins; Kelly Pierce; Alexander N. Pillai; Rosalyn Cherie Rael; Katherine Rosenfeld; Chrysm Watson Ross; Julie A. Spencer; Arlin B. Stoltzfus; Kok Ben Toh; Shashaank Vattikuti; Alessandro Vespignani; Lingxiao Wang; Lisa J. White; Pan Xu; Yupeng Yang; Osman N. Yogurtcu; Weitong Zhang; Yanting Zhao; Difan Zou; Matthew J. Ferrari; David Pannell; Michael J. Tildesley; Jack Seifarth; Elyse Johnson; Matthew Biggerstaff; Michael A. Johansson; Rachel B. Slayton; John D. Levander; Jeff Stazer; Jessica Kerr; Michael C. Runge

doi:10.1073/pnas.2207537120

Multiple models for outbreak decision support in the face of uncertainty

Katriona Shea, Rebecca K. Borchering, William J.M. Probert, Emily Howerton, Tiffany L. Bogich, Shou Li Li, Willem G. van Panhuis, Cecile Viboud, Ricardo Aguás, Artur A. Belov, Sanjana H. Bhargava, Sean M. Cavany, Joshua C. Chang, Cynthia Chen, Jinghui Chen, Shi Chen, Yang Quan Chen, Lauren M. Childs, Carson C. Chow, Isabel CrookerSara Y. Del Valle, Guido España, Geoffrey Fairchild, Richard C. Gerkin, Timothy C. Germann, Quanquan Gu, Xiangyang Guan, Lihong Guo, Gregory R. Hart, Thomas J. Hladish, Nathaniel Hupert, Daniel Janies, Cliff C. Kerr, Daniel J. Klein, Eili Y. Klein, Gary Lin, Carrie Manore, Lauren Ancel Meyers, John E. Mittler, Kunpeng Mu, Rafael C. Núñez, Rachel J. Oidtman, Remy Pasco, Ana Pastore y Piontti, Rajib Paul, Carl A.B. Pearson, Dianela R. Perdomo, T. Alex Perkins, Kelly Pierce, Alexander N. Pillai, Rosalyn Cherie Rael, Katherine Rosenfeld, Chrysm Watson Ross, Julie A. Spencer, Arlin B. Stoltzfus, Kok Ben Toh, Shashaank Vattikuti, Alessandro Vespignani, Lingxiao Wang, Lisa J. White, Pan Xu, Yupeng Yang, Osman N. Yogurtcu, Weitong Zhang, Yanting Zhao, Difan Zou, Matthew J. Ferrari, David Pannell, Michael J. Tildesley, Jack Seifarth, Elyse Johnson, Matthew Biggerstaff, Michael A. Johansson, Rachel B. Slayton, John D. Levander, Jeff Stazer, Jessica Kerr, Michael C. Runge

Life Sciences, School of (SOLS)

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Policymakers must make management decisions despite incomplete knowledge and conflicting model projections. Little guidance exists for the rapid, representative, and unbiased collection of policy-relevant scientific input from independent modeling teams. Integrating approaches from decision analysis, expert judgment, and model aggregation, we convened multiple modeling teams to evaluate COVID-19 reopening strategies for a mid-sized United States county early in the pandemic. Projections from seventeen distinct models were inconsistent in magnitude but highly consistent in ranking interventions. The 6-mo-ahead aggregate projections were well in line with observed outbreaks in mid-sized US counties. The aggregate results showed that up to half the population could be infected with full workplace reopening, while workplace restrictions reduced median cumulative infections by 82%. Rankings of interventions were consistent across public health objectives, but there was a strong trade-off between public health outcomes and duration of workplace closures, and no win-win intermediate reopening strategies were identified. Between-model variation was high; the aggregate results thus provide valuable risk quantification for decision making. This approach can be applied to the evaluation of management interventions in any setting where models are used to inform decision making. This case study demonstrated the utility of our approach and was one of several multimodel efforts that laid the groundwork for the COVID-19 Scenario Modeling Hub, which has provided multiple rounds of real-time scenario projections for situational awareness and decision making to the Centers for Disease Control and Prevention since December 2020.

Original language	English (US)
Article number	e2207537120
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	120
Issue number	118
DOIs	https://doi.org/10.1073/pnas.2207537120
State	Published - 2023

Keywords

cognitive biases
decision theory
multi-model aggregation

ASJC Scopus subject areas

General

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10.1073/pnas.2207537120

Cite this

Shea, K., Borchering, R. K., Probert, W. J. M., Howerton, E., Bogich, T. L., Li, S. L., van Panhuis, W. G., Viboud, C., Aguás, R., Belov, A. A., Bhargava, S. H., Cavany, S. M., Chang, J. C., Chen, C., Chen, J., Chen, S., Chen, Y. Q., Childs, L. M., Chow, C. C., ... Runge, M. C. (2023). Multiple models for outbreak decision support in the face of uncertainty. Proceedings of the National Academy of Sciences of the United States of America, 120(118), Article e2207537120. https://doi.org/10.1073/pnas.2207537120

Shea, K, Borchering, RK, Probert, WJM, Howerton, E, Bogich, TL, Li, SL, van Panhuis, WG, Viboud, C, Aguás, R, Belov, AA, Bhargava, SH, Cavany, SM, Chang, JC, Chen, C, Chen, J, Chen, S, Chen, YQ, Childs, LM, Chow, CC, Crooker, I, Del Valle, SY, España, G, Fairchild, G, Gerkin, RC, Germann, TC, Gu, Q, Guan, X, Guo, L, Hart, GR, Hladish, TJ, Hupert, N, Janies, D, Kerr, CC, Klein, DJ, Klein, EY, Lin, G, Manore, C, Meyers, LA, Mittler, JE, Mu, K, Núñez, RC, Oidtman, RJ, Pasco, R, y Piontti, AP, Paul, R, Pearson, CAB, Perdomo, DR, Alex Perkins, T, Pierce, K, Pillai, AN, Rael, RC, Rosenfeld, K, Ross, CW, Spencer, JA, Stoltzfus, AB, Toh, KB, Vattikuti, S, Vespignani, A, Wang, L, White, LJ, Xu, P, Yang, Y, Yogurtcu, ON, Zhang, W, Zhao, Y, Zou, D, Ferrari, MJ, Pannell, D, Tildesley, MJ, Seifarth, J, Johnson, E, Biggerstaff, M, Johansson, MA, Slayton, RB, Levander, JD, Stazer, J, Kerr, J & Runge, MC 2023, 'Multiple models for outbreak decision support in the face of uncertainty', Proceedings of the National Academy of Sciences of the United States of America, vol. 120, no. 118, e2207537120. https://doi.org/10.1073/pnas.2207537120

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title = "Multiple models for outbreak decision support in the face of uncertainty",

abstract = "Policymakers must make management decisions despite incomplete knowledge and conflicting model projections. Little guidance exists for the rapid, representative, and unbiased collection of policy-relevant scientific input from independent modeling teams. Integrating approaches from decision analysis, expert judgment, and model aggregation, we convened multiple modeling teams to evaluate COVID-19 reopening strategies for a mid-sized United States county early in the pandemic. Projections from seventeen distinct models were inconsistent in magnitude but highly consistent in ranking interventions. The 6-mo-ahead aggregate projections were well in line with observed outbreaks in mid-sized US counties. The aggregate results showed that up to half the population could be infected with full workplace reopening, while workplace restrictions reduced median cumulative infections by 82%. Rankings of interventions were consistent across public health objectives, but there was a strong trade-off between public health outcomes and duration of workplace closures, and no win-win intermediate reopening strategies were identified. Between-model variation was high; the aggregate results thus provide valuable risk quantification for decision making. This approach can be applied to the evaluation of management interventions in any setting where models are used to inform decision making. This case study demonstrated the utility of our approach and was one of several multimodel efforts that laid the groundwork for the COVID-19 Scenario Modeling Hub, which has provided multiple rounds of real-time scenario projections for situational awareness and decision making to the Centers for Disease Control and Prevention since December 2020.",

keywords = "cognitive biases, decision theory, multi-model aggregation",

author = "Katriona Shea and Borchering, {Rebecca K.} and Probert, {William J.M.} and Emily Howerton and Bogich, {Tiffany L.} and Li, {Shou Li} and {van Panhuis}, {Willem G.} and Cecile Viboud and Ricardo Agu{\'a}s and Belov, {Artur A.} and Bhargava, {Sanjana H.} and Cavany, {Sean M.} and Chang, {Joshua C.} and Cynthia Chen and Jinghui Chen and Shi Chen and Chen, {Yang Quan} and Childs, {Lauren M.} and Chow, {Carson C.} and Isabel Crooker and {Del Valle}, {Sara Y.} and Guido Espa{\~n}a and Geoffrey Fairchild and Gerkin, {Richard C.} and Germann, {Timothy C.} and Quanquan Gu and Xiangyang Guan and Lihong Guo and Hart, {Gregory R.} and Hladish, {Thomas J.} and Nathaniel Hupert and Daniel Janies and Kerr, {Cliff C.} and Klein, {Daniel J.} and Klein, {Eili Y.} and Gary Lin and Carrie Manore and Meyers, {Lauren Ancel} and Mittler, {John E.} and Kunpeng Mu and N{\'u}{\~n}ez, {Rafael C.} and Oidtman, {Rachel J.} and Remy Pasco and {y Piontti}, {Ana Pastore} and Rajib Paul and Pearson, {Carl A.B.} and Perdomo, {Dianela R.} and {Alex Perkins}, T. and Kelly Pierce and Pillai, {Alexander N.} and Rael, {Rosalyn Cherie} and Katherine Rosenfeld and Ross, {Chrysm Watson} and Spencer, {Julie A.} and Stoltzfus, {Arlin B.} and Toh, {Kok Ben} and Shashaank Vattikuti and Alessandro Vespignani and Lingxiao Wang and White, {Lisa J.} and Pan Xu and Yupeng Yang and Yogurtcu, {Osman N.} and Weitong Zhang and Yanting Zhao and Difan Zou and Ferrari, {Matthew J.} and David Pannell and Tildesley, {Michael J.} and Jack Seifarth and Elyse Johnson and Matthew Biggerstaff and Johansson, {Michael A.} and Slayton, {Rachel B.} and Levander, {John D.} and Jeff Stazer and Jessica Kerr and Runge, {Michael C.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2023 the Author(s).",

year = "2023",

doi = "10.1073/pnas.2207537120",

language = "English (US)",

volume = "120",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "118",

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T1 - Multiple models for outbreak decision support in the face of uncertainty

AU - Shea, Katriona

AU - Borchering, Rebecca K.

AU - Probert, William J.M.

AU - Howerton, Emily

AU - Bogich, Tiffany L.

AU - Li, Shou Li

AU - van Panhuis, Willem G.

AU - Viboud, Cecile

AU - Aguás, Ricardo

AU - Belov, Artur A.

AU - Bhargava, Sanjana H.

AU - Cavany, Sean M.

AU - Chang, Joshua C.

AU - Chen, Cynthia

AU - Chen, Jinghui

AU - Chen, Shi

AU - Chen, Yang Quan

AU - Childs, Lauren M.

AU - Chow, Carson C.

AU - Crooker, Isabel

AU - Del Valle, Sara Y.

AU - España, Guido

AU - Fairchild, Geoffrey

AU - Gerkin, Richard C.

AU - Germann, Timothy C.

AU - Gu, Quanquan

AU - Guan, Xiangyang

AU - Guo, Lihong

AU - Hart, Gregory R.

AU - Hladish, Thomas J.

AU - Hupert, Nathaniel

AU - Janies, Daniel

AU - Kerr, Cliff C.

AU - Klein, Daniel J.

AU - Klein, Eili Y.

AU - Lin, Gary

AU - Manore, Carrie

AU - Meyers, Lauren Ancel

AU - Mittler, John E.

AU - Mu, Kunpeng

AU - Núñez, Rafael C.

AU - Oidtman, Rachel J.

AU - Pasco, Remy

AU - y Piontti, Ana Pastore

AU - Paul, Rajib

AU - Pearson, Carl A.B.

AU - Perdomo, Dianela R.

AU - Alex Perkins, T.

AU - Pierce, Kelly

AU - Pillai, Alexander N.

AU - Rael, Rosalyn Cherie

AU - Rosenfeld, Katherine

AU - Ross, Chrysm Watson

AU - Spencer, Julie A.

AU - Stoltzfus, Arlin B.

AU - Toh, Kok Ben

AU - Vattikuti, Shashaank

AU - Vespignani, Alessandro

AU - Wang, Lingxiao

AU - White, Lisa J.

AU - Xu, Pan

AU - Yang, Yupeng

AU - Yogurtcu, Osman N.

AU - Zhang, Weitong

AU - Zhao, Yanting

AU - Zou, Difan

AU - Ferrari, Matthew J.

AU - Pannell, David

AU - Tildesley, Michael J.

AU - Seifarth, Jack

AU - Johnson, Elyse

AU - Biggerstaff, Matthew

AU - Johansson, Michael A.

AU - Slayton, Rachel B.

AU - Levander, John D.

AU - Stazer, Jeff

AU - Kerr, Jessica

AU - Runge, Michael C.

PY - 2023

Y1 - 2023

N2 - Policymakers must make management decisions despite incomplete knowledge and conflicting model projections. Little guidance exists for the rapid, representative, and unbiased collection of policy-relevant scientific input from independent modeling teams. Integrating approaches from decision analysis, expert judgment, and model aggregation, we convened multiple modeling teams to evaluate COVID-19 reopening strategies for a mid-sized United States county early in the pandemic. Projections from seventeen distinct models were inconsistent in magnitude but highly consistent in ranking interventions. The 6-mo-ahead aggregate projections were well in line with observed outbreaks in mid-sized US counties. The aggregate results showed that up to half the population could be infected with full workplace reopening, while workplace restrictions reduced median cumulative infections by 82%. Rankings of interventions were consistent across public health objectives, but there was a strong trade-off between public health outcomes and duration of workplace closures, and no win-win intermediate reopening strategies were identified. Between-model variation was high; the aggregate results thus provide valuable risk quantification for decision making. This approach can be applied to the evaluation of management interventions in any setting where models are used to inform decision making. This case study demonstrated the utility of our approach and was one of several multimodel efforts that laid the groundwork for the COVID-19 Scenario Modeling Hub, which has provided multiple rounds of real-time scenario projections for situational awareness and decision making to the Centers for Disease Control and Prevention since December 2020.

AB - Policymakers must make management decisions despite incomplete knowledge and conflicting model projections. Little guidance exists for the rapid, representative, and unbiased collection of policy-relevant scientific input from independent modeling teams. Integrating approaches from decision analysis, expert judgment, and model aggregation, we convened multiple modeling teams to evaluate COVID-19 reopening strategies for a mid-sized United States county early in the pandemic. Projections from seventeen distinct models were inconsistent in magnitude but highly consistent in ranking interventions. The 6-mo-ahead aggregate projections were well in line with observed outbreaks in mid-sized US counties. The aggregate results showed that up to half the population could be infected with full workplace reopening, while workplace restrictions reduced median cumulative infections by 82%. Rankings of interventions were consistent across public health objectives, but there was a strong trade-off between public health outcomes and duration of workplace closures, and no win-win intermediate reopening strategies were identified. Between-model variation was high; the aggregate results thus provide valuable risk quantification for decision making. This approach can be applied to the evaluation of management interventions in any setting where models are used to inform decision making. This case study demonstrated the utility of our approach and was one of several multimodel efforts that laid the groundwork for the COVID-19 Scenario Modeling Hub, which has provided multiple rounds of real-time scenario projections for situational awareness and decision making to the Centers for Disease Control and Prevention since December 2020.

KW - cognitive biases

KW - decision theory

KW - multi-model aggregation

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JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 118

M1 - e2207537120

ER -

Multiple models for outbreak decision support in the face of uncertainty

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