Related papers: Assessing the robustness of heterogeneous treatment effects in survival analysis under informative censoring

Assessing the robustness of heterogeneous treatment effects in survival analysis under informative censoring

URL: http://arxiv.org/abs/2510.13397v2
Date: Tue, 28 Oct 2025 12:46:53 GMT
Title: Assessing the robustness of heterogeneous treatment effects in survival analysis under informative censoring
Authors: Yuxin Wang, Dennis Frauen, Jonas Schweisthal, Maresa Schröder, Stefan Feuerriegel,
Abstract summary: Dropout is common in clinical studies, with up to half of patients leaving early due to side effects or other reasons.<n>When dropout is informative, it introduces censoring bias, because of which treatment effect estimates are also biased.<n>We propose an assumption-lean framework to assess the robustness of conditional average treatment effect estimates in survival analysis when facing censoring bias.
Score: 50.164756034797136
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Dropout is common in clinical studies, with up to half of patients leaving early due to side effects or other reasons. When dropout is informative (i.e., dependent on survival time), it introduces censoring bias, because of which treatment effect estimates are also biased. In this paper, we propose an assumption-lean framework to assess the robustness of conditional average treatment effect (CATE) estimates in survival analysis when facing censoring bias. Unlike existing works that rely on strong assumptions, such as non-informative censoring, to obtain point estimation, we use partial identification to derive informative bounds on the CATE. Thereby, our framework helps to identify patient subgroups where treatment is effective despite informative censoring. We further develop a novel meta-learner that estimates the bounds using arbitrary machine learning models and with favorable theoretical properties, including double robustness and quasi-oracle efficiency. We demonstrate the practical value of our meta-learner through numerical experiments and in an application to a cancer drug trial. Together, our framework offers a practical tool for assessing the robustness of estimated treatment effects in the presence of censoring and thus promotes the reliable use of survival data for evidence generation in medicine and epidemiology.

Related papers

Beyond the ATE: Interpretable Modelling of Treatment Effects over Dose and Time [46.2482873419289]
We propose a framework for modelling treatment effect trajectories as smooth surfaces over dose and time.<n>Our approach decouples the estimation of trajectory shape from the specification of clinically relevant properties.<n>We show that our method yields accurate, interpretable, and editable models of treatment dynamics.
arXiv Detail & Related papers (2025-07-09T20:33:33Z)
Path-specific effects for pulse-oximetry guided decisions in critical care [32.03586504790604]
This study causally investigates how racial discrepancies in oximetry measurements affect invasive ventilation in ICU settings.<n>We employ a causal inference-based approach using path-specific effects to isolate the impact of bias by race on clinical decision-making.
arXiv Detail & Related papers (2025-06-14T06:45:53Z)
Statistical Learning for Heterogeneous Treatment Effects: Pretraining, Prognosis, and Prediction [40.96453902709292]
We propose pretraining strategies that leverage a phenomenon in real-world applications.<n>In medicine, components of the same biological signaling pathways frequently influence both baseline risk and treatment response.<n>We use this structure to incorporate side information and develop models that can exploit synergies between risk prediction and causal effect estimation.
arXiv Detail & Related papers (2025-05-01T05:12:14Z)
Constructing Confidence Intervals for Average Treatment Effects from Multiple Datasets [51.2467404472005]
We propose a new method that estimates the ATE from multiple observational datasets and provides valid CIs.<n>Our method makes little assumptions about the observational datasets and is thus widely applicable in medical practice.
arXiv Detail & Related papers (2024-12-16T07:39:46Z)
Contrastive Learning of Temporal Distinctiveness for Survival Analysis in Electronic Health Records [10.192973297290136]
We propose a novel Ontology-aware Temporality-based Contrastive Survival (OTCSurv) analysis framework. OTCSurv uses survival durations from both censored and observed data to define temporal distinctiveness. We conduct experiments using a large EHR dataset to forecast the risk of hospitalized patients who are in danger of developing acute kidney injury (AKI)
arXiv Detail & Related papers (2023-08-24T22:36:22Z)
On Practical Aspects of Aggregation Defenses against Data Poisoning Attacks [58.718697580177356]
Attacks on deep learning models with malicious training samples are known as data poisoning. Recent advances in defense strategies against data poisoning have highlighted the effectiveness of aggregation schemes in achieving certified poisoning robustness. Here we focus on Deep Partition Aggregation, a representative aggregation defense, and assess its practical aspects, including efficiency, performance, and robustness.
arXiv Detail & Related papers (2023-06-28T17:59:35Z)
B-Learner: Quasi-Oracle Bounds on Heterogeneous Causal Effects Under Hidden Confounding [51.74479522965712]
We propose a meta-learner called the B-Learner, which can efficiently learn sharp bounds on the CATE function under limits on hidden confounding. We prove its estimates are valid, sharp, efficient, and have a quasi-oracle property with respect to the constituent estimators under more general conditions than existing methods.
arXiv Detail & Related papers (2023-04-20T18:07:19Z)
Partial Identification of Dose Responses with Hidden Confounders [25.468473751289036]
Inferring causal effects of continuous-valued treatments from observational data is a crucial task. We present novel methodology to bound both average and conditional average continuous-valued treatment-effect estimates. We apply our method to a real-world observational case study to demonstrate the value of identifying dose-dependent causal effects.
arXiv Detail & Related papers (2022-04-24T07:02:21Z)
SurvITE: Learning Heterogeneous Treatment Effects from Time-to-Event Data [83.50281440043241]
We study the problem of inferring heterogeneous treatment effects from time-to-event data. We propose a novel deep learning method for treatment-specific hazard estimation based on balancing representations.
arXiv Detail & Related papers (2021-10-26T20:13:17Z)
Enabling Counterfactual Survival Analysis with Balanced Representations [64.17342727357618]
Survival data are frequently encountered across diverse medical applications, i.e., drug development, risk profiling, and clinical trials. We propose a theoretically grounded unified framework for counterfactual inference applicable to survival outcomes.
arXiv Detail & Related papers (2020-06-14T01:15:00Z)

This list is automatically generated from the titles and abstracts of the papers in this site.

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.