Machine learning for estimating and comparing clinical rules for treating diarrheal illness with antibiotics Restricted; Files Only
Codi, Allison (Spring 2024)
Abstract
Acute diarrheal disease is one of the leading causes of death in children under age 5, disproportionately impacting children in low-resource settings. While many of these cases could be treated with antibiotics, current World Health Organization guidelines are narrow and often miss cases that would benefit from treatment. In this study, we propose a framework for the creation of optimal treatment rules (OTRs) that leverage available information to recommend treatment to individuals who have a clinically relevant causal effect. We use a nested cross validation procedure that makes use of Super Learning to estimate a doubly-robust (DR)-learner and recommend treatment to patients whose conditional average treatment effect (CATE) meets a clinically relevant threshold. We use an augmented inverse probability of treatment weighted estimator (AIPTW) to estimate the proportion treated, the Average Treatment effect under the Rule (ATR_d), and the Average Treatment effect among those Recommended Treatment under the rule (ATRT_d). Our method has low bias, 95% coverage, and consistent standard error under rules based on a single, binary covariate. It also has low bias and 95% coverage of data-adaptive parameters under more complex rules. We apply our method to a real-data analysis of the AntiBiotics for Children with severe Diarrhea (ABCD) trial and demonstrate the importance of point-of-care diagnostics in the creation of OTRs. Overall, the creation of OTRs can help public health officials leverage information effectively and make treatment recommendations that will have the greatest impact on the population.
Table of Contents
1 Introduction
2 Methods
2.1 Notation
2.2 Parameters of Interest
2.2.1 Conditional Average Treatment Effect (CATE)
2.2.2 Optimal Treatment Rule (OTR)
2.2.3 Effect Estimands
2.3 Identification
2.4 Estimation
2.4.1 General Approach
2.4.2 Estimating the CATE and treatment rule
2.4.3 Augmented Inverse Probability of Treatment Weight (AIPTW) Estimator for Effect Estimates
2.4.4 Averaging over cross-validation folds
3 Simulation Study
3.1 Data Generation
3.2 Procedure
3.3 Results
3.3.1 Data Adaptive Results
4 Data Analysis
4.1 Simple Rule
4.2 Complex Rules
5 Discussion
Bibliography
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File download under embargo until 20 May 2026 | 2024-04-08 00:11:01 -0400 | File download under embargo until 20 May 2026 |
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