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Main Authors: Estevez, Melissa, Singh, Nisha, Dyson, Lauren, Adamson, Blythe, Yuan, Qianyu, Hildner, Megan W., Fidyk, Erin, Mbah, Olive, Khan, Farhad, Seidl-Rathkopf, Kathi, Cohen, Aaron B.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.08231
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author Estevez, Melissa
Singh, Nisha
Dyson, Lauren
Adamson, Blythe
Yuan, Qianyu
Hildner, Megan W.
Fidyk, Erin
Mbah, Olive
Khan, Farhad
Seidl-Rathkopf, Kathi
Cohen, Aaron B.
author_facet Estevez, Melissa
Singh, Nisha
Dyson, Lauren
Adamson, Blythe
Yuan, Qianyu
Hildner, Megan W.
Fidyk, Erin
Mbah, Olive
Khan, Farhad
Seidl-Rathkopf, Kathi
Cohen, Aaron B.
contents Large language models (LLMs) are increasingly used to extract clinical data from electronic health records (EHRs), offering significant improvements in scalability and efficiency for real-world data (RWD) curation in oncology. However, the adoption of LLMs introduces new challenges in ensuring the reliability, accuracy, and fairness of extracted data, which are essential for research, regulatory, and clinical applications. Existing quality assurance frameworks for RWD and artificial intelligence do not fully address the unique error modes and complexities associated with LLM-extracted data. In this paper, we propose a comprehensive framework for evaluating the quality of clinical data extracted by LLMs. The framework integrates variable-level performance benchmarking against expert human abstraction, automated verification checks for internal consistency and plausibility, and replication analyses comparing LLM-extracted data to human-abstracted datasets or external standards. This multidimensional approach enables the identification of variables most in need of improvement, systematic detection of latent errors, and confirmation of dataset fitness-for-purpose in real-world research. Additionally, the framework supports bias assessment by stratifying metrics across demographic subgroups. By providing a rigorous and transparent method for assessing LLM-extracted RWD, this framework advances industry standards and supports the trustworthy use of AI-powered evidence generation in oncology research and practice.
format Preprint
id arxiv_https___arxiv_org_abs_2506_08231
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Ensuring Reliability of Curated EHR-Derived Data: The Validation of Accuracy for LLM/ML-Extracted Information and Data (VALID) Framework
Estevez, Melissa
Singh, Nisha
Dyson, Lauren
Adamson, Blythe
Yuan, Qianyu
Hildner, Megan W.
Fidyk, Erin
Mbah, Olive
Khan, Farhad
Seidl-Rathkopf, Kathi
Cohen, Aaron B.
Machine Learning
Artificial Intelligence
Performance
Large language models (LLMs) are increasingly used to extract clinical data from electronic health records (EHRs), offering significant improvements in scalability and efficiency for real-world data (RWD) curation in oncology. However, the adoption of LLMs introduces new challenges in ensuring the reliability, accuracy, and fairness of extracted data, which are essential for research, regulatory, and clinical applications. Existing quality assurance frameworks for RWD and artificial intelligence do not fully address the unique error modes and complexities associated with LLM-extracted data. In this paper, we propose a comprehensive framework for evaluating the quality of clinical data extracted by LLMs. The framework integrates variable-level performance benchmarking against expert human abstraction, automated verification checks for internal consistency and plausibility, and replication analyses comparing LLM-extracted data to human-abstracted datasets or external standards. This multidimensional approach enables the identification of variables most in need of improvement, systematic detection of latent errors, and confirmation of dataset fitness-for-purpose in real-world research. Additionally, the framework supports bias assessment by stratifying metrics across demographic subgroups. By providing a rigorous and transparent method for assessing LLM-extracted RWD, this framework advances industry standards and supports the trustworthy use of AI-powered evidence generation in oncology research and practice.
title Ensuring Reliability of Curated EHR-Derived Data: The Validation of Accuracy for LLM/ML-Extracted Information and Data (VALID) Framework
topic Machine Learning
Artificial Intelligence
Performance
url https://arxiv.org/abs/2506.08231