PLOS Digital Health (Dec 2024)

Evaluating Large Language Models in extracting cognitive exam dates and scores.

  • Hao Zhang,
  • Neil Jethani,
  • Simon Jones,
  • Nicholas Genes,
  • Vincent J Major,
  • Ian S Jaffe,
  • Anthony B Cardillo,
  • Noah Heilenbach,
  • Nadia Fazal Ali,
  • Luke J Bonanni,
  • Andrew J Clayburn,
  • Zain Khera,
  • Erica C Sadler,
  • Jaideep Prasad,
  • Jamie Schlacter,
  • Kevin Liu,
  • Benjamin Silva,
  • Sophie Montgomery,
  • Eric J Kim,
  • Jacob Lester,
  • Theodore M Hill,
  • Alba Avoricani,
  • Ethan Chervonski,
  • James Davydov,
  • William Small,
  • Eesha Chakravartty,
  • Himanshu Grover,
  • John A Dodson,
  • Abraham A Brody,
  • Yindalon Aphinyanaphongs,
  • Arjun Masurkar,
  • Narges Razavian

DOI
https://doi.org/10.1371/journal.pdig.0000685
Journal volume & issue
Vol. 3, no. 12
p. e0000685

Abstract

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Ensuring reliability of Large Language Models (LLMs) in clinical tasks is crucial. Our study assesses two state-of-the-art LLMs (ChatGPT and LlaMA-2) for extracting clinical information, focusing on cognitive tests like MMSE and CDR. Our data consisted of 135,307 clinical notes (Jan 12th, 2010 to May 24th, 2023) mentioning MMSE, CDR, or MoCA. After applying inclusion criteria 34,465 notes remained, of which 765 underwent ChatGPT (GPT-4) and LlaMA-2, and 22 experts reviewed the responses. ChatGPT successfully extracted MMSE and CDR instances with dates from 742 notes. We used 20 notes for fine-tuning and training the reviewers. The remaining 722 were assigned to reviewers, with 309 each assigned to two reviewers simultaneously. Inter-rater-agreement (Fleiss' Kappa), precision, recall, true/false negative rates, and accuracy were calculated. Our study follows TRIPOD reporting guidelines for model validation. For MMSE information extraction, ChatGPT (vs. LlaMA-2) achieved accuracy of 83% (vs. 66.4%), sensitivity of 89.7% (vs. 69.9%), true-negative rates of 96% (vs 60.0%), and precision of 82.7% (vs 62.2%). For CDR the results were lower overall, with accuracy of 87.1% (vs. 74.5%), sensitivity of 84.3% (vs. 39.7%), true-negative rates of 99.8% (98.4%), and precision of 48.3% (vs. 16.1%). We qualitatively evaluated the MMSE errors of ChatGPT and LlaMA-2 on double-reviewed notes. LlaMA-2 errors included 27 cases of total hallucination, 19 cases of reporting other scores instead of MMSE, 25 missed scores, and 23 cases of reporting only the wrong date. In comparison, ChatGPT's errors included only 3 cases of total hallucination, 17 cases of wrong test reported instead of MMSE, and 19 cases of reporting a wrong date. In this diagnostic/prognostic study of ChatGPT and LlaMA-2 for extracting cognitive exam dates and scores from clinical notes, ChatGPT exhibited high accuracy, with better performance compared to LlaMA-2. The use of LLMs could benefit dementia research and clinical care, by identifying eligible patients for treatments initialization or clinical trial enrollments. Rigorous evaluation of LLMs is crucial to understanding their capabilities and limitations.