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Paper detail

Automated causal inference in application to randomized controlled clinical trials

Randomized controlled trials (RCTs) are considered as the gold standard for testing causal hypotheses in the clinical domain. However, the investigation of prognostic variables of patient outcome in a hypothesized cause-effect route is not feasible using standard statistical methods. Here, we propose a new automated causal inference method (AutoCI) built upon the invariant causal prediction (ICP) framework for the causal re-interpretation of clinical trial data. Compared to existing methods, we show that the proposed AutoCI allows to efficiently determine the causal variables with a clear differentiation on two real-world RCTs of endometrial cancer patients with mature outcome and extensive clinicopathological and molecular data. This is achieved via suppressing the causal probability of non-causal variables by a wide margin. In ablation studies, we further demonstrate that the assignment of causal probabilities by AutoCI remain consistent in the presence of confounders. In conclusion, these results confirm the robustness and feasibility of AutoCI for future applications in real-world clinical analysis.

preprint2022arXivOpen access
Jiqing WuNanda HorewegMarco de BruynRemi A. NoutIna M. Jürgenliemk-SchulzLudy C. H. W. LutgensJan J. JobsenElzbieta M. van der Steen-BanasikHans W. NijmanVincent T. H. B. M. SmitTjalling BosseCarien L. CreutzbergViktor H. Koelzer
MethodologyMachine LearningArtificial Intelligence
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Jiqing WuNanda HorewegMarco de BruynRemi A. NoutIna M. Jürgenliemk-SchulzLudy C. H. W. LutgensJan J. JobsenElzbieta M. van der Steen-BanasikHans W. NijmanVincent T. H. B. M. SmitTjalling BosseCarien L. CreutzbergViktor H. Koelzer

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