Considerations for Quality Control Monitoring of Machine Learning Models in Clinical Practice.

IF 3.1 3区 医学 Q2 MEDICAL INFORMATICS
Louis Faust, Patrick Wilson, Shusaku Asai, Sunyang Fu, Hongfang Liu, Xiaoyang Ruan, Curt Storlie
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引用次数: 0

Abstract

Integrating machine learning (ML) models into clinical practice presents a challenge of maintaining their efficacy over time. While existing literature offers valuable strategies for detecting declining model performance, there is a need to document the broader challenges and solutions associated with the real-world development and integration of model monitoring solutions. This work details the development and use of a platform for monitoring the performance of a production-level ML model operating in Mayo Clinic. In this paper, we aimed to provide a series of considerations and guidelines necessary for integrating such a platform into a team's technical infrastructure and workflow. We have documented our experiences with this integration process, discussed the broader challenges encountered with real-world implementation and maintenance, and included the source code for the platform. Our monitoring platform was built as an R shiny application, developed and implemented over the course of 6 months. The platform has been used and maintained for 2 years and is still in use as of July 2023. The considerations necessary for the implementation of the monitoring platform center around 4 pillars: feasibility (what resources can be used for platform development?); design (through what statistics or models will the model be monitored, and how will these results be efficiently displayed to the end user?); implementation (how will this platform be built, and where will it exist within the IT ecosystem?); and policy (based on monitoring feedback, when and what actions will be taken to fix problems, and how will these problems be translated to clinical staff?). While much of the literature surrounding ML performance monitoring emphasizes methodological approaches for capturing changes in performance, there remains a battery of other challenges and considerations that must be addressed for successful real-world implementation.

临床实践中机器学习模型质量控制监测的注意事项。
将机器学习(ML)模型集成到临床实践中,面临着长期保持其有效性的挑战。虽然现有文献为检测模型性能下降提供了有价值的策略,但仍有必要记录与模型监控解决方案的实际开发和集成相关的更广泛挑战和解决方案。本文详细介绍了梅奥诊所开发和使用生产级 ML 模型性能监控平台的情况。在本文中,我们旨在提供将此类平台集成到团队技术基础设施和工作流程中所需的一系列注意事项和指导原则。我们记录了我们在集成过程中的经验,讨论了在实际实施和维护过程中遇到的更广泛的挑战,并包含了该平台的源代码。我们的监控平台是以 R shiny 应用程序的形式构建的,开发和实施过程历时 6 个月。该平台已使用和维护了 2 年,截至 2023 年 7 月仍在使用。实施监控平台所需的考虑因素主要围绕 4 个支柱:可行性(可用于平台开发的资源有哪些?);设计(将通过哪些统计数据或模型对模型进行监控,以及如何将这些结果有效地显示给最终用户?尽管有关流式传输性能监控的许多文献都强调了捕捉性能变化的方法,但要在现实世界中成功实施,还必须应对一系列其他挑战和考虑因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
JMIR Medical Informatics
JMIR Medical Informatics Medicine-Health Informatics
CiteScore
7.90
自引率
3.10%
发文量
173
审稿时长
12 weeks
期刊介绍: JMIR Medical Informatics (JMI, ISSN 2291-9694) is a top-rated, tier A journal which focuses on clinical informatics, big data in health and health care, decision support for health professionals, electronic health records, ehealth infrastructures and implementation. It has a focus on applied, translational research, with a broad readership including clinicians, CIOs, engineers, industry and health informatics professionals. Published by JMIR Publications, publisher of the Journal of Medical Internet Research (JMIR), the leading eHealth/mHealth journal (Impact Factor 2016: 5.175), JMIR Med Inform has a slightly different scope (emphasizing more on applications for clinicians and health professionals rather than consumers/citizens, which is the focus of JMIR), publishes even faster, and also allows papers which are more technical or more formative than what would be published in the Journal of Medical Internet Research.
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