A Comparison of Agent-Based Models and the Parametric G-Formula for Causal Inference

Decision-making requires choosing from treatments on the basis of correctly estimated outcome distributions under each treatment. In the absence of randomized trials, 2 possible approaches are the parametric g-formula and agent-based models (ABMs). The g-formula has been used exclusively to estimate...

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Vydáno v:American journal of epidemiology Ročník 186; číslo 2; s. 131
Hlavní autoři: Murray, Eleanor J, Robins, James M, Seage, George R, Freedberg, Kenneth A, Hernán, Miguel A
Médium: Journal Article
Jazyk:angličtina
Vydáno: United States 15.07.2017
Témata:
Bias
Causality
Cause of Death - trends
Computer Simulation - statistics & numerical data
Data Interpretation, Statistical
Decision Making
Epidemiologic Research Design
Humans
Models, Statistical
Monte Carlo Method
Outcome Assessment, Health Care - methods
Outcome Assessment, Health Care - statistics & numerical data
Risk Assessment - methods
Systems Analysis
Monte Carlo methods
agent-based models
decision analysis
mathematical models
medical decision making
causal inference
individual-level models
parametric g-formula
ISSN:1476-6256, 1476-6256
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Shrnutí:Decision-making requires choosing from treatments on the basis of correctly estimated outcome distributions under each treatment. In the absence of randomized trials, 2 possible approaches are the parametric g-formula and agent-based models (ABMs). The g-formula has been used exclusively to estimate effects in the population from which data were collected, whereas ABMs are commonly used to estimate effects in multiple populations, necessitating stronger assumptions. Here, we describe potential biases that arise when ABM assumptions do not hold. To do so, we estimated 12-month mortality risk in simulated populations differing in prevalence of an unknown common cause of mortality and a time-varying confounder. The ABM and g-formula correctly estimated mortality and causal effects when all inputs were from the target population. However, whenever any inputs came from another population, the ABM gave biased estimates of mortality-and often of causal effects even when the true effect was null. In the absence of unmeasured confounding and model misspecification, both methods produce valid causal inferences for a given population when all inputs are from that population. However, ABMs may result in bias when extrapolated to populations that differ on the distribution of unmeasured outcome determinants, even when the causal network linking variables is identical.
Bibliografie:ObjectType-Article-2
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ISSN:1476-6256
1476-6256
DOI:10.1093/aje/kwx091