General-Purpose Retrieval-Enhanced Medical Prediction Model Using Near-Infinite History

Machine learning (ML) has recently shown promising results in medical predictions using electronic health records (EHRs). However, since ML models typically have a limited capability in terms of input sizes, selecting specific medical events from EHRs for use as input is necessary. This selection pr...

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Veröffentlicht in:	arXiv.org 2024-07
Hauptverfasser:	Kim, Junu, Shim, Chaeeun, Bosco Seong Kyu Yang, Im, Chami, Sung Yoon Lim, Han-Gil, Jeong, Choi, Edward
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Schlagworte:	Electronic health records Prediction models Retrieval
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creator	Kim, Junu Shim, Chaeeun Bosco Seong Kyu Yang Im, Chami Sung Yoon Lim Han-Gil, Jeong Choi, Edward
description	Machine learning (ML) has recently shown promising results in medical predictions using electronic health records (EHRs). However, since ML models typically have a limited capability in terms of input sizes, selecting specific medical events from EHRs for use as input is necessary. This selection process, often relying on expert opinion, can cause bottlenecks in development. We propose Retrieval-Enhanced Medical prediction model (REMed) to address such challenges. REMed can essentially evaluate unlimited medical events, select the relevant ones, and make predictions. This allows for an unrestricted input size, eliminating the need for manual event selection. We verified these properties through experiments involving 27 clinical prediction tasks across four independent cohorts, where REMed outperformed the baselines. Notably, we found that the preferences of REMed align closely with those of medical experts. We expect our approach to significantly expedite the development of EHR prediction models by minimizing clinicians' need for manual involvement.
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However, since ML models typically have a limited capability in terms of input sizes, selecting specific medical events from EHRs for use as input is necessary. This selection process, often relying on expert opinion, can cause bottlenecks in development. We propose Retrieval-Enhanced Medical prediction model (REMed) to address such challenges. REMed can essentially evaluate unlimited medical events, select the relevant ones, and make predictions. This allows for an unrestricted input size, eliminating the need for manual event selection. We verified these properties through experiments involving 27 clinical prediction tasks across four independent cohorts, where REMed outperformed the baselines. Notably, we found that the preferences of REMed align closely with those of medical experts. 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title	General-Purpose Retrieval-Enhanced Medical Prediction Model Using Near-Infinite History
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