非对比 CT 上分段级冠状动脉钙化自动评分：一种多任务深度学习方法。

IF 4.1 2区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Insights into Imaging Pub Date : 2024-10-16 DOI:10.1186/s13244-024-01827-0

Bernhard Föllmer, Sotirios Tsogias, Federico Biavati, Kenrick Schulze, Maria Bosserdt, Lars Gerrit Hövermann, Sebastian Stober, Wojciech Samek, Klaus F Kofoed, Pál Maurovich-Horvat, Patrick Donnelly, Theodora Benedek, Michelle C Williams, Marc Dewey

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引用次数: 0

摘要

目的开发并评估一种多任务深度学习（DL）模型，用于在非对比度计算机断层扫描（CT）上自动进行分段级冠状动脉钙化（CAC）评分，以精确定位和量化冠状动脉树中的钙化：本研究纳入了参与多中心 DISCHARGE 试验（NCT02400229）的 26 个中心的 1514 名稳定型胸痛患者（平均年龄为 60.0 ± 10.2 岁；56.0% 为女性）。患者被随机分配到训练/验证集（1059 人）和测试集（455 人）。我们开发了一个多任务神经网络，主要任务是在节段水平上对钙化进行分割，辅助任务是对注释较弱的冠状动脉节段区域进行分割。使用（微平均）灵敏度、特异性、F1-分数和基于 Agatston 评分的分段级一致性加权 Cohen's κ 评估模型性能，并进行观察者间变异性分析：在由 455 名患者和 1797 个钙化点组成的测试集中，该模型为 73.2% 的患者（1316/1797）分配了正确的冠状动脉节段。该模型的微观平均灵敏度为 0.732（95% CI：0.710-0.754），微观平均特异度为 0.978（95% CI：0.976-0.980），微观平均 F1 评分为 0.717（95% CI：0.695-0.739）。分段级一致性良好，加权科恩κ为0.808（95% CI：0.790-0.824），仅略低于第一和第二观察者之间的一致性（0.809（95% CI：0.798-0.845））：结论：使用多任务神经网络方法进行节段级 CAC 自动评分显示出良好的节段级一致性，表明 DL 有潜力用于冠状动脉钙化的自动分类：多任务深度学习可在节段水平上进行自动冠状动脉钙化评分，且具有良好的一致性，可能有助于开发新的和改进的钙化评分方法：节段级冠状动脉钙化评分是一项繁琐且容易出错的任务。所提出的多任务模型在节段水平上与人类观察者取得了良好的一致性。深度学习有助于实现节段级冠状动脉钙化评分的自动化。

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Automated segment-level coronary artery calcium scoring on non-contrast CT: a multi-task deep-learning approach.

Objectives: To develop and evaluate a multi-task deep-learning (DL) model for automated segment-level coronary artery calcium (CAC) scoring on non-contrast computed tomography (CT) for precise localization and quantification of calcifications in the coronary artery tree.

Methods: This study included 1514 patients (mean age, 60.0 ± 10.2 years; 56.0% female) with stable chest pain from 26 centers participating in the multicenter DISCHARGE trial (NCT02400229). The patients were randomly assigned to a training/validation set (1059) and a test set (455). We developed a multi-task neural network for performing the segmentation of calcifications on the segment level as the main task and the segmentation of coronary artery segment regions with weak annotations as an auxiliary task. Model performance was evaluated using (micro-average) sensitivity, specificity, F1-score, and weighted Cohen's κ for segment-level agreement based on the Agatston score and performing interobserver variability analysis.

Results: In the test set of 455 patients with 1797 calcifications, the model assigned 73.2% (1316/1797) to the correct coronary artery segment. The model achieved a micro-average sensitivity of 0.732 (95% CI: 0.710-0.754), a micro-average specificity of 0.978 (95% CI: 0.976-0.980), and a micro-average F1-score of 0.717 (95% CI: 0.695-0.739). The segment-level agreement was good with a weighted Cohen's κ of 0.808 (95% CI: 0.790-0.824), which was only slightly lower than the agreement between the first and second observer (0.809 (95% CI: 0.798-0.845)).

Conclusion: Automated segment-level CAC scoring using a multi-task neural network approach showed good agreement on the segment level, indicating that DL has the potential for automated coronary artery calcification classification.

Critical relevance statement: Multi-task deep learning can perform automated coronary calcium scoring on the segment level with good agreement and may contribute to the development of new and improved calcium scoring methods.

Key points: Segment-level coronary artery calcium scoring is a tedious and error-prone task. The proposed multi-task model achieved good agreement with a human observer on the segment level. Deep learning can contribute to the automation of segment-level coronary artery calcium scoring.

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来源期刊

Insights into Imaging Medicine-Radiology, Nuclear Medicine and Imaging

CiteScore

7.30

自引率

4.30%

发文量

182

审稿时长

13 weeks

期刊介绍： Insights into Imaging (I³) is a peer-reviewed open access journal published under the brand SpringerOpen. All content published in the journal is freely available online to anyone, anywhere! I³ continuously updates scientific knowledge and progress in best-practice standards in radiology through the publication of original articles and state-of-the-art reviews and opinions, along with recommendations and statements from the leading radiological societies in Europe. Founded by the European Society of Radiology (ESR), I³ creates a platform for educational material, guidelines and recommendations, and a forum for topics of controversy. A balanced combination of review articles, original papers, short communications from European radiological congresses and information on society matters makes I³ an indispensable source for current information in this field. I³ is owned by the ESR, however authors retain copyright to their article according to the Creative Commons Attribution License (see Copyright and License Agreement). All articles can be read, redistributed and reused for free, as long as the author of the original work is cited properly. The open access fees (article-processing charges) for this journal are kindly sponsored by ESR for all Members. The journal went open access in 2012, which means that all articles published since then are freely available online.