부산대학교 도서관

Background. Large Language Models (LLMs) hold promise for improving genetic variant literature review in clinical testing. We assessed Generative Pretrained Transformer 4's (GPT-4) performance, nondeterminism, and drift to inform its suitability for use in complex clinical processes. Methods. A 2-prompt process for classification of functional evidence was optimized using a development set of 45 articles. The prompts asked GPT-4 to supply all functional data present in an article related to a variant or indicate that no functional evidence is present. For articles indicated as containing functional evidence, a second prompt asked GPT-4 to classify the evidence into pathogenic, benign, or intermediate/inconclusive categories. A final test set of 72 manually classified articles was used to test performance. Results. Over a 2.5-month period (Dec 2023-Feb 2024), we observed substantial differences in intraday (nondeterminism) and across day (drift) results, which lessened after 1/18/24. This variability is seen within and across models in the GPT-4 series, affecting different performance statistics to different degrees. Twenty runs after 1/18/24 identified articles containing functional evidence with 92.2% sensitivity, 95.6% positive predictive value (PPV) and 86.3% negative predictive value (NPV). The second prompt's identified pathogenic functional evidence with 90.0% sensitivity, 74.0% PPV and 95.3% NVP and for benign evidence with 88.0% sensitivity, 76.6% PPV and 96.9% NVP. Conclusion. Nondeterminism and drift within LLMs must be assessed and monitored when introducing LLM based functionality into clinical workflows. Failing to do this assessment or accounting for these challenges could lead to incorrect or missing information that is critical for patient care. The performance of our prompts appears adequate to assist in article prioritization but not in automated decision making.
Comment: 5 pages, 1 table, 4 figures, 2 supplementary tables, 1 supplementary figure. These authors contributed equally: Samuel J. Aronson, Kalotina Machini, and Jiyeon Shin Corresponding author: Samuel J. Aronson