弥合数字病理学中临床与计算透明度之间的差距。

Qiangqiang Gu, Ankush Patel, Matthew G Hanna, Jochen K Lennerz, Chris Garcia, Mark Zarella, David McClintock, Steven N Hart
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引用次数: 0

摘要

背景计算病理学将临床病理学与计算分析相结合,旨在提高诊断能力和临床工作效率。然而,病理学家与开发人员之间的沟通障碍往往阻碍了这一潜力的充分发挥:提出一个标准化框架,以增进对临床目标和计算方法的相互理解。目的是加强计算机辅助诊断(CAD)工具的开发和应用:文章建议病理学家和计算机科学家在计算机辅助诊断开发过程中发挥关键作用。文章呼吁病理学家进一步了解计算术语、过程和局限性。同样,它认为计算机科学家应更好地理解所开发算法的真正用例,以避免无临床意义的指标:结果:计算机辅助设计工具大大改善了病理学实践。一些工具甚至获得了美国食品药品管理局的批准。然而,病理学家必须加深对机器学习模型的理解,以防止误用和误读。此外,与病理学家相比,还需要更准确地反映算法的性能:全面了解计算和临床范例对于克服计算病理学的转化差距至关重要。这种相互理解将通过更准确、更高效的疾病诊断改善对患者的护理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bridging the Clinical-Computational Transparency Gap in Digital Pathology.

Context.—: Computational pathology combines clinical pathology with computational analysis, aiming to enhance diagnostic capabilities and improve clinical productivity. However, communication barriers between pathologists and developers often hinder the full realization of this potential.

Objective.—: To propose a standardized framework that improves mutual understanding of clinical objectives and computational methodologies. The goal is to enhance the development and application of computer-aided diagnostic (CAD) tools.

Design.—: The article suggests pivotal roles for pathologists and computer scientists in the CAD development process. It calls for increased understanding of computational terminologies, processes, and limitations among pathologists. Similarly, it argues that computer scientists should better comprehend the true use cases of the developed algorithms to avoid clinically meaningless metrics.

Results.—: CAD tools improve pathology practice significantly. Some tools have even received US Food and Drug Administration approval. However, improved understanding of machine learning models among pathologists is essential to prevent misuse and misinterpretation. There is also a need for a more accurate representation of the algorithms' performance compared to that of pathologists.

Conclusions.—: A comprehensive understanding of computational and clinical paradigms is crucial for overcoming the translational gap in computational pathology. This mutual comprehension will improve patient care through more accurate and efficient disease diagnosis.

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