研究分布式学习在头部磁共振图像中的自动病灶检测。

IF 1.7 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Radiological Physics and Technology Pub Date : 2024-09-01 Epub Date: 2024-07-24 DOI:10.1007/s12194-024-00827-5
Aiki Yamada, Shouhei Hanaoka, Tomomi Takenaga, Soichiro Miki, Takeharu Yoshikawa, Yukihiro Nomura
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引用次数: 0

摘要

在本研究中,我们研究了分布式学习(包括联合学习和循环权重转移)在计算机辅助检测(CADe)软件开发中的应用,这些软件用于(1)磁共振(MR)血管造影图像中的脑动脉瘤检测和(2)脑对比增强 MR 图像中的脑转移瘤检测。我们使用了从不同机构、扫描仪供应商和磁场强度收集到的数据集,用于每个目标 CADe 软件。我们比较了多种策略的性能,其中包括集中策略,即在从多个机构收集去标识化数据后,在一个开发机构进行软件开发。结果表明,通过分布式学习培训的 CADe 软件的性能等同于或优于通过集中式策略培训的软件。不过,实现最高性能的分布式学习策略取决于目标 CADe 软件。因此,分布式学习可以成为利用从多个机构收集的数据开发 CADe 软件的策略之一。
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Investigation of distributed learning for automated lesion detection in head MR images.

In this study, we investigated the application of distributed learning, including federated learning and cyclical weight transfer, in the development of computer-aided detection (CADe) software for (1) cerebral aneurysm detection in magnetic resonance (MR) angiography images and (2) brain metastasis detection in brain contrast-enhanced MR images. We used datasets collected from various institutions, scanner vendors, and magnetic field strengths for each target CADe software. We compared the performance of multiple strategies, including a centralized strategy, in which software development is conducted at a development institution after collecting de-identified data from multiple institutions. Our results showed that the performance of CADe software trained through distributed learning was equal to or better than that trained through the centralized strategy. However, the distributed learning strategies that achieved the highest performance depend on the target CADe software. Hence, distributed learning can become one of the strategies for CADe software development using data collected from multiple institutions.

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来源期刊
Radiological Physics and Technology
Radiological Physics and Technology RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
3.00
自引率
12.50%
发文量
40
期刊介绍: The purpose of the journal Radiological Physics and Technology is to provide a forum for sharing new knowledge related to research and development in radiological science and technology, including medical physics and radiological technology in diagnostic radiology, nuclear medicine, and radiation therapy among many other radiological disciplines, as well as to contribute to progress and improvement in medical practice and patient health care.
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