MS 病变检测和分割与临床工作流程的整合程度如何?一项系统评价。
How far MS lesion detection and segmentation are integrated into the clinical workflow? A systematic review.
机构信息
Translational Imaging in Neurology (ThINK) Basel, Department of Biomedical Engineering, Faculty of Medicine, University Hospital Basel and University of Basel, Basel, Switzerland; Department of Neurology, University Hospital Basel, Basel, Switzerland; Research Center for Clinical Neuroimmunology and Neuroscience Basel (RC2NB), University Hospital Basel and University of Basel, Basel, Switzerland; MedGIFT, Institute of Informatics, School of Management, HES-SO Valais-Wallis University of Applied Sciences and Arts Western Switzerland, Sierre, Switzerland.
MedGIFT, Institute of Informatics, School of Management, HES-SO Valais-Wallis University of Applied Sciences and Arts Western Switzerland, Sierre, Switzerland; Nuclear Medicine and Molecular Imaging Department, Lausanne University Hospital (CHUV) and University of Lausanne, Lausanne, Switzerland.
出版信息
Neuroimage Clin. 2023;39:103491. doi: 10.1016/j.nicl.2023.103491. Epub 2023 Aug 12.
INTRODUCTION
Over the past few years, the deep learning community has developed and validated a plethora of tools for lesion detection and segmentation in Multiple Sclerosis (MS). However, there is an important gap between validating models technically and clinically. To this end, a six-step framework necessary for the development, validation, and integration of quantitative tools in the clinic was recently proposed under the name of the Quantitative Neuroradiology Initiative (QNI).
AIMS
Investigate to what extent automatic tools in MS fulfill the QNI framework necessary to integrate automated detection and segmentation into the clinical neuroradiology workflow.
METHODS
Adopting the systematic Cochrane literature review methodology, we screened and summarised published scientific articles that perform automatic MS lesions detection and segmentation. We categorised the retrieved studies based on their degree of fulfillment of QNI's six-steps, which include a tool's technical assessment, clinical validation, and integration.
RESULTS
We found 156 studies; 146/156 (94%) fullfilled the first QNI step, 155/156 (99%) the second, 8/156 (5%) the third, 3/156 (2%) the fourth, 5/156 (3%) the fifth and only one the sixth.
CONCLUSIONS
To date, little has been done to evaluate the clinical performance and the integration in the clinical workflow of available methods for MS lesion detection/segmentation. In addition, the socio-economic effects and the impact on patients' management of such tools remain almost unexplored.
简介
在过去的几年中,深度学习社区已经开发并验证了许多用于多发性硬化症(MS)病变检测和分割的工具。然而,在技术和临床验证模型之间存在一个重要的差距。为此,最近以定量神经放射学倡议(QNI)的名义提出了一个用于在临床中开发、验证和整合定量工具的六步框架。
目的
研究自动工具在多大程度上满足将自动检测和分割集成到临床神经放射学工作流程中所需的 QNI 框架。
方法
采用系统的 Cochrane 文献综述方法,我们筛选并总结了发表的自动 MS 病变检测和分割的科学文章。我们根据 QNI 的六个步骤的完成程度对检索到的研究进行分类,这六个步骤包括工具的技术评估、临床验证和整合。
结果
我们发现了 156 项研究;146/156(94%)满足 QNI 的第一步,155/156(99%)满足第二步,8/156(5%)满足第三步,3/156(2%)满足第四步,5/156(3%)满足第五步,只有一项满足第六步。
结论
迄今为止,对于 MS 病变检测/分割的现有方法的临床性能和在临床工作流程中的整合评估做得很少。此外,此类工具的社会经济影响和对患者管理的影响几乎未被探索。
Zotero 插件