GRADE Guidelines 30: the GRADE approach to assessing the certainty of modeled evidence-An overview in the context of health decision-making

Jan L Brozek; Carlos Canelo-Aybar; Elie A Akl; James M Bowen; John Bucher; Weihsueh A Chiu; Mark Cronin; Benjamin Djulbegovic; Maicon Falavigna; Gordon H Guyatt; Ami A Gordon; Michele Hilton Boon; Raymond C W Hutubessy; Manuela A Joore; Vittal Katikireddi; Judy LaKind; Miranda Langendam; Veena Manja; Kristen Magnuson; Alexander G Mathioudakis; Joerg Meerpohl; Dominik Mertz; Roman Mezencev; Rebecca Morgan; Gian Paolo Morgano; Reem Mustafa; Martin O'Flaherty; Grace Patlewicz; John J Riva; Margarita Posso; Andrew Rooney; Paul M Schlosser; Lisa Schwartz; Ian Shemilt; Jean-Eric Tarride; Kristina A Thayer; Katya Tsaioun; Luke Vale; John Wambaugh; Jessica Wignall; Ashley Williams; Feng Xie; Yuan Zhang; Holger J Schünemann; GRADE Working Group

doi:10.1016/j.jclinepi.2020.09.018

GRADE Guidelines 30: the GRADE approach to assessing the certainty of modeled evidence-An overview in the context of health decision-making

Jan L Brozek^*, Carlos Canelo-Aybar, Elie A Akl, James M Bowen, John Bucher, Weihsueh A Chiu, Mark Cronin, Benjamin Djulbegovic, Maicon Falavigna, Gordon H Guyatt, Ami A Gordon, Michele Hilton Boon, Raymond C W Hutubessy, Manuela A Joore, Vittal Katikireddi, Judy LaKind, Miranda Langendam, Veena Manja, Kristen Magnuson, Alexander G MathioudakisJoerg Meerpohl, Dominik Mertz, Roman Mezencev, Rebecca Morgan, Gian Paolo Morgano, Reem Mustafa, Martin O'Flaherty, Grace Patlewicz, John J Riva, Margarita Posso, Andrew Rooney, Paul M Schlosser, Lisa Schwartz, Ian Shemilt, Jean-Eric Tarride, Kristina A Thayer, Katya Tsaioun, Luke Vale, John Wambaugh, Jessica Wignall, Ashley Williams, Feng Xie, Yuan Zhang, Holger J Schünemann, GRADE Working Group

^*Corresponding author for this work

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

Abstract

Objectives: The objective of the study is to present the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) conceptual approach to the assessment of certainty of evidence from modeling studies (i.e., certainty associated with model outputs).

Study Design and Setting: Expert consultations and an international multidisciplinary workshop informed development of a conceptual approach to assessing the certainty of evidence from models within the context of systematic reviews, health technology assessments, and health care decisions. The discussions also clarified selected concepts and terminology used in the GRADE approach and by the modeling community. Feedback from experts in a broad range of modeling and health care disciplines addressed the content validity of the approach.

Results: Workshop participants agreed that the domains determining the certainty of evidence previously identified in the GRADE approach (risk of bias, indirectness, inconsistency, imprecision, reporting bias, magnitude of an effect, dose-response relation, and the direction of residual confounding) also apply when assessing the certainty of evidence from models. The assessment depends on the nature of model inputs and the model itself and on whether one is evaluating evidence from a single model or multiple models. We propose a framework for selecting the best available evidence from models: 1) developing de novo, a model specific to the situation of interest, 2) identifying an existing model, the outputs of which provide the highest certainty evidence for the situation of interest, either "off-the-shelf'' or after adaptation, and 3) using outputs from multiple models. We also present a summary of preferred terminology to facilitate communication among modeling and health care disciplines.

Conclusion: This conceptual GRADE approach provides a framework for using evidence from models in health decision-making and the assessment of certainty of evidence from a model or models. The GRADE Working Group and the modeling community are currently developing the detailed methods and related guidance for assessing specific domains determining the certainty of evidence from models across health care-related disciplines (e.g., therapeutic decision-making, toxicology, environmental health, and health economics). (C) 2020 Published by Elsevier Inc.

Original language	English
Pages (from-to)	138-150
Number of pages	13
Journal	Journal of Clinical Epidemiology
Volume	129
Early online date	24 Sept 2020
DOIs	https://doi.org/10.1016/j.jclinepi.2020.09.018
Publication status	Published - Jan 2021

Keywords

GRADE
Certainty of evidence
Mathematical models
Modelling studies
Health care Decision making
Guidelines
TASK-FORCE
TECHNOLOGY-ASSESSMENT
QUALITY
UNCERTAINTY
VALIDATION
SIMULATION
IDENTIFICATION

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Brozek, J. L., Canelo-Aybar, C., Akl, E. A., Bowen, J. M., Bucher, J., Chiu, W. A., Cronin, M., Djulbegovic, B., Falavigna, M., Guyatt, G. H., Gordon, A. A., Boon, M. H., Hutubessy, R. C. W., Joore, M. A., Katikireddi, V., LaKind, J., Langendam, M., Manja, V., Magnuson, K., ... GRADE Working Group (2021). GRADE Guidelines 30: the GRADE approach to assessing the certainty of modeled evidence-An overview in the context of health decision-making. Journal of Clinical Epidemiology, 129, 138-150. https://doi.org/10.1016/j.jclinepi.2020.09.018

@article{5bdcc01a0582411581a82026e259ff3c,

title = "GRADE Guidelines 30: the GRADE approach to assessing the certainty of modeled evidence-An overview in the context of health decision-making",

abstract = "Objectives: The objective of the study is to present the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) conceptual approach to the assessment of certainty of evidence from modeling studies (i.e., certainty associated with model outputs).Study Design and Setting: Expert consultations and an international multidisciplinary workshop informed development of a conceptual approach to assessing the certainty of evidence from models within the context of systematic reviews, health technology assessments, and health care decisions. The discussions also clarified selected concepts and terminology used in the GRADE approach and by the modeling community. Feedback from experts in a broad range of modeling and health care disciplines addressed the content validity of the approach.Results: Workshop participants agreed that the domains determining the certainty of evidence previously identified in the GRADE approach (risk of bias, indirectness, inconsistency, imprecision, reporting bias, magnitude of an effect, dose-response relation, and the direction of residual confounding) also apply when assessing the certainty of evidence from models. The assessment depends on the nature of model inputs and the model itself and on whether one is evaluating evidence from a single model or multiple models. We propose a framework for selecting the best available evidence from models: 1) developing de novo, a model specific to the situation of interest, 2) identifying an existing model, the outputs of which provide the highest certainty evidence for the situation of interest, either {"}off-the-shelf'' or after adaptation, and 3) using outputs from multiple models. We also present a summary of preferred terminology to facilitate communication among modeling and health care disciplines.Conclusion: This conceptual GRADE approach provides a framework for using evidence from models in health decision-making and the assessment of certainty of evidence from a model or models. The GRADE Working Group and the modeling community are currently developing the detailed methods and related guidance for assessing specific domains determining the certainty of evidence from models across health care-related disciplines (e.g., therapeutic decision-making, toxicology, environmental health, and health economics). (C) 2020 Published by Elsevier Inc.",

keywords = "GRADE, Certainty of evidence, Mathematical models, Modelling studies, Health care Decision making, Guidelines, TASK-FORCE, TECHNOLOGY-ASSESSMENT, QUALITY, UNCERTAINTY, VALIDATION, SIMULATION, IDENTIFICATION",

author = "Brozek, {Jan L} and Carlos Canelo-Aybar and Akl, {Elie A} and Bowen, {James M} and John Bucher and Chiu, {Weihsueh A} and Mark Cronin and Benjamin Djulbegovic and Maicon Falavigna and Guyatt, {Gordon H} and Gordon, {Ami A} and Boon, {Michele Hilton} and Hutubessy, {Raymond C W} and Joore, {Manuela A} and Vittal Katikireddi and Judy LaKind and Miranda Langendam and Veena Manja and Kristen Magnuson and Mathioudakis, {Alexander G} and Joerg Meerpohl and Dominik Mertz and Roman Mezencev and Rebecca Morgan and Morgano, {Gian Paolo} and Reem Mustafa and Martin O'Flaherty and Grace Patlewicz and Riva, {John J} and Margarita Posso and Andrew Rooney and Schlosser, {Paul M} and Lisa Schwartz and Ian Shemilt and Jean-Eric Tarride and Thayer, {Kristina A} and Katya Tsaioun and Luke Vale and John Wambaugh and Jessica Wignall and Ashley Williams and Feng Xie and Yuan Zhang and Sch{\"u}nemann, {Holger J} and {GRADE Working Group}",

note = "Copyright {\textcopyright} 2020. Published by Elsevier Inc.",

year = "2021",

month = jan,

doi = "10.1016/j.jclinepi.2020.09.018",

language = "English",

volume = "129",

pages = "138--150",

journal = "Journal of Clinical Epidemiology",

issn = "0895-4356",

publisher = "Elsevier Science",

}

Brozek, JL, Canelo-Aybar, C, Akl, EA, Bowen, JM, Bucher, J, Chiu, WA, Cronin, M, Djulbegovic, B, Falavigna, M, Guyatt, GH, Gordon, AA, Boon, MH, Hutubessy, RCW, Joore, MA, Katikireddi, V, LaKind, J, Langendam, M, Manja, V, Magnuson, K, Mathioudakis, AG, Meerpohl, J, Mertz, D, Mezencev, R, Morgan, R, Morgano, GP, Mustafa, R, O'Flaherty, M, Patlewicz, G, Riva, JJ, Posso, M, Rooney, A, Schlosser, PM, Schwartz, L, Shemilt, I, Tarride, J-E, Thayer, KA, Tsaioun, K, Vale, L, Wambaugh, J, Wignall, J, Williams, A, Xie, F, Zhang, Y, Schünemann, HJ & GRADE Working Group 2021, 'GRADE Guidelines 30: the GRADE approach to assessing the certainty of modeled evidence-An overview in the context of health decision-making', Journal of Clinical Epidemiology, vol. 129, pp. 138-150. https://doi.org/10.1016/j.jclinepi.2020.09.018

TY - JOUR

T1 - GRADE Guidelines 30

T2 - the GRADE approach to assessing the certainty of modeled evidence-An overview in the context of health decision-making

AU - Brozek, Jan L

AU - Canelo-Aybar, Carlos

AU - Akl, Elie A

AU - Bowen, James M

AU - Bucher, John

AU - Chiu, Weihsueh A

AU - Cronin, Mark

AU - Djulbegovic, Benjamin

AU - Falavigna, Maicon

AU - Guyatt, Gordon H

AU - Gordon, Ami A

AU - Boon, Michele Hilton

AU - Hutubessy, Raymond C W

AU - Joore, Manuela A

AU - Katikireddi, Vittal

AU - LaKind, Judy

AU - Langendam, Miranda

AU - Manja, Veena

AU - Magnuson, Kristen

AU - Mathioudakis, Alexander G

AU - Meerpohl, Joerg

AU - Mertz, Dominik

AU - Mezencev, Roman

AU - Morgan, Rebecca

AU - Morgano, Gian Paolo

AU - Mustafa, Reem

AU - O'Flaherty, Martin

AU - Patlewicz, Grace

AU - Riva, John J

AU - Posso, Margarita

AU - Rooney, Andrew

AU - Schlosser, Paul M

AU - Schwartz, Lisa

AU - Shemilt, Ian

AU - Tarride, Jean-Eric

AU - Thayer, Kristina A

AU - Tsaioun, Katya

AU - Vale, Luke

AU - Wambaugh, John

AU - Wignall, Jessica

AU - Williams, Ashley

AU - Xie, Feng

AU - Zhang, Yuan

AU - Schünemann, Holger J

AU - GRADE Working Group

PY - 2021/1

Y1 - 2021/1

N2 - Objectives: The objective of the study is to present the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) conceptual approach to the assessment of certainty of evidence from modeling studies (i.e., certainty associated with model outputs).Study Design and Setting: Expert consultations and an international multidisciplinary workshop informed development of a conceptual approach to assessing the certainty of evidence from models within the context of systematic reviews, health technology assessments, and health care decisions. The discussions also clarified selected concepts and terminology used in the GRADE approach and by the modeling community. Feedback from experts in a broad range of modeling and health care disciplines addressed the content validity of the approach.Results: Workshop participants agreed that the domains determining the certainty of evidence previously identified in the GRADE approach (risk of bias, indirectness, inconsistency, imprecision, reporting bias, magnitude of an effect, dose-response relation, and the direction of residual confounding) also apply when assessing the certainty of evidence from models. The assessment depends on the nature of model inputs and the model itself and on whether one is evaluating evidence from a single model or multiple models. We propose a framework for selecting the best available evidence from models: 1) developing de novo, a model specific to the situation of interest, 2) identifying an existing model, the outputs of which provide the highest certainty evidence for the situation of interest, either "off-the-shelf'' or after adaptation, and 3) using outputs from multiple models. We also present a summary of preferred terminology to facilitate communication among modeling and health care disciplines.Conclusion: This conceptual GRADE approach provides a framework for using evidence from models in health decision-making and the assessment of certainty of evidence from a model or models. The GRADE Working Group and the modeling community are currently developing the detailed methods and related guidance for assessing specific domains determining the certainty of evidence from models across health care-related disciplines (e.g., therapeutic decision-making, toxicology, environmental health, and health economics). (C) 2020 Published by Elsevier Inc.

AB - Objectives: The objective of the study is to present the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) conceptual approach to the assessment of certainty of evidence from modeling studies (i.e., certainty associated with model outputs).Study Design and Setting: Expert consultations and an international multidisciplinary workshop informed development of a conceptual approach to assessing the certainty of evidence from models within the context of systematic reviews, health technology assessments, and health care decisions. The discussions also clarified selected concepts and terminology used in the GRADE approach and by the modeling community. Feedback from experts in a broad range of modeling and health care disciplines addressed the content validity of the approach.Results: Workshop participants agreed that the domains determining the certainty of evidence previously identified in the GRADE approach (risk of bias, indirectness, inconsistency, imprecision, reporting bias, magnitude of an effect, dose-response relation, and the direction of residual confounding) also apply when assessing the certainty of evidence from models. The assessment depends on the nature of model inputs and the model itself and on whether one is evaluating evidence from a single model or multiple models. We propose a framework for selecting the best available evidence from models: 1) developing de novo, a model specific to the situation of interest, 2) identifying an existing model, the outputs of which provide the highest certainty evidence for the situation of interest, either "off-the-shelf'' or after adaptation, and 3) using outputs from multiple models. We also present a summary of preferred terminology to facilitate communication among modeling and health care disciplines.Conclusion: This conceptual GRADE approach provides a framework for using evidence from models in health decision-making and the assessment of certainty of evidence from a model or models. The GRADE Working Group and the modeling community are currently developing the detailed methods and related guidance for assessing specific domains determining the certainty of evidence from models across health care-related disciplines (e.g., therapeutic decision-making, toxicology, environmental health, and health economics). (C) 2020 Published by Elsevier Inc.

KW - GRADE

KW - Certainty of evidence

KW - Mathematical models

KW - Modelling studies

KW - Health care Decision making

KW - Guidelines

KW - TASK-FORCE

KW - TECHNOLOGY-ASSESSMENT

KW - QUALITY

KW - UNCERTAINTY

KW - VALIDATION

KW - SIMULATION

KW - IDENTIFICATION

U2 - 10.1016/j.jclinepi.2020.09.018

DO - 10.1016/j.jclinepi.2020.09.018

M3 - Article

C2 - 32980429

SN - 0895-4356

VL - 129

SP - 138

EP - 150

JO - Journal of Clinical Epidemiology

JF - Journal of Clinical Epidemiology

ER -