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Bibliographic Details
Main Author: Miao, Wang
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.18469
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author Miao, Wang
author_facet Miao, Wang
contents Hill's specificity criterion has been highly influential in biomedical and epidemiological research. However, it remains controversial and its application often relies on subjective and qualitative analysis without a comprehensive and rigorous causal theory. Focusing on unmeasured confounding adjustment with multiple treatments and multiple outcomes, this paper develops a formal and quantitative framework for leveraging specificity for causal inference in observational studies. The proposed framework introduces a causal specificity assumption, a quantitative measure of specificity, a hypothesis testing procedure, and identification and estimation strategies. Identification under a nonparametric outcome model is established. The causal specificity assumption concerns only the breadth of causal associations, in contrast to Hill's specificity that concerns observed associations and to existing confounding adjustment methods that rely on auxiliary variables (e.g., instrumental variables, negative controls) or independence structures (e.g., factor models). A sensitivity analysis procedure is proposed to assess robustness of the test against violations of this assumption. This framework is particularly suited to exposure- and outcome-wide studies, where joint causal discovery across multiple treatments and multiple outcomes is of interest. It also offers a potential tool for addressing other sources of bias, such as invalid instruments in Mendelian randomization and selection bias in missing data analysis.
format Preprint
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institution arXiv
publishDate 2025
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spellingShingle Leveraging specificity for causal inference in observational studies
Miao, Wang
Methodology
Hill's specificity criterion has been highly influential in biomedical and epidemiological research. However, it remains controversial and its application often relies on subjective and qualitative analysis without a comprehensive and rigorous causal theory. Focusing on unmeasured confounding adjustment with multiple treatments and multiple outcomes, this paper develops a formal and quantitative framework for leveraging specificity for causal inference in observational studies. The proposed framework introduces a causal specificity assumption, a quantitative measure of specificity, a hypothesis testing procedure, and identification and estimation strategies. Identification under a nonparametric outcome model is established. The causal specificity assumption concerns only the breadth of causal associations, in contrast to Hill's specificity that concerns observed associations and to existing confounding adjustment methods that rely on auxiliary variables (e.g., instrumental variables, negative controls) or independence structures (e.g., factor models). A sensitivity analysis procedure is proposed to assess robustness of the test against violations of this assumption. This framework is particularly suited to exposure- and outcome-wide studies, where joint causal discovery across multiple treatments and multiple outcomes is of interest. It also offers a potential tool for addressing other sources of bias, such as invalid instruments in Mendelian randomization and selection bias in missing data analysis.
title Leveraging specificity for causal inference in observational studies
topic Methodology
url https://arxiv.org/abs/2506.18469