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Machine Learning for Causal Inference: On the Use of Cross-fit Estimators

Paul N. Zivich, Alexander Breskin

2021Epidemiology89 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Modern causal inference methods allow machine learning to be used to weaken parametric modeling assumptions. However, the use of machine learning may result in complications for inference. Doubly robust cross-fit estimators have been proposed to yield better statistical properties. METHODS: We conducted a simulation study to assess the performance of several different estimators for the average causal effect. The data generating mechanisms for the simulated treatment and outcome included log-transforms, polynomial terms, and discontinuities. We compared singly robust estimators (g-computation, inverse probability weighting) and doubly robust estimators (augmented inverse probability weighting, targeted maximum likelihood estimation). We estimated nuisance functions with parametric models and ensemble machine learning separately. We further assessed doubly robust cross-fit estimators. RESULTS: With correctly specified parametric models, all of the estimators were unbiased and confidence intervals achieved nominal coverage. When used with machine learning, the doubly robust cross-fit estimators substantially outperformed all of the other estimators in terms of bias, variance, and confidence interval coverage. CONCLUSIONS: Due to the difficulty of properly specifying parametric models in high-dimensional data, doubly robust estimators with ensemble learning and cross-fitting may be the preferred approach for estimation of the average causal effect in most epidemiologic studies. However, these approaches may require larger sample sizes to avoid finite-sample issues.

Topics & Concepts

EstimatorMachine learningArtificial intelligenceComputer scienceParametric statisticsEnsemble learningCausal inferenceParametric modelEstimationSample (material)Causal modelNonparametric statisticsSample size determinationStatisticsAverage treatment effectLarge sampleEconometricsStatistical learningMathematicsEstimation theoryAdvanced Causal Inference TechniquesStatistical Methods and Bayesian InferenceBayesian Modeling and Causal Inference