Felix Busch, Keno K Bressem, Phillip Suwalski, Lena Hoffmann, Stefan M Niehues, Denis Poddubnyy, Marcus R Makowski, Hugo J W L Aerts, Andrei Zhukov, Lisa C Adams
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Abstract
Purpose To develop and evaluate a publicly available deep learning model for segmenting and classifying cardiac implantable electronic devices (CIEDs) on Digital Imaging and Communications in Medicine (DICOM) and smartphone-based chest radiographs. Materials and Methods This institutional review board-approved retrospective study included patients with implantable pacemakers, cardioverter defibrillators, cardiac resynchronization therapy devices, and cardiac monitors who underwent chest radiography between January 2012 and January 2022. A U-Net model with a ResNet-50 backbone was created to classify CIEDs on DICOM and smartphone images. Using 2321 chest radiographs in 897 patients (median age, 76 years [range, 18-96 years]; 625 male, 272 female), CIEDs were categorized into four manufacturers, 27 models, and one "other" category. Five smartphones were used to acquire 11 072 images. Performance was reported using the Dice coefficient on the validation set for segmentation or balanced accuracy on the test set for manufacturer and model classification, respectively. Results The segmentation tool achieved a mean Dice coefficient of 0.936 (IQR: 0.890-0.958). The model had an accuracy of 94.36% (95% CI: 90.93%, 96.84%; 251 of 266) for CIED manufacturer classification and 84.21% (95% CI: 79.31%, 88.30%; 224 of 266) for CIED model classification. Conclusion The proposed deep learning model, trained on both traditional DICOM and smartphone images, showed high accuracy for segmentation and classification of CIEDs on chest radiographs. Keywords: Conventional Radiography, Segmentation Supplemental material is available for this article . © RSNA, 2024 See also the commentary by Júdice de Mattos Farina and Celi in this issue.
在标准 DICOM 和基于智能手机的胸部 X 光片上进行心脏设备识别的开放访问数据和深度学习。
"刚刚接受 "的论文经过同行评审,已被接受在《放射学》上发表:人工智能》上发表。这篇文章在以最终版本发表之前,还将经过校对、排版和校对审核。请注意,在制作最终校对稿的过程中,可能会发现影响文章内容的错误。目的 开发和评估一种公开可用的深度学习模型,用于在医学数字成像与通信(DICOM)和基于智能手机的胸片(CXR)图像上分割和分类心脏植入式电子装置(CIED)。材料与方法 这项经机构审查委员会批准的回顾性研究纳入了在 2012 年 1 月至 2022 年 1 月期间接受胸部放射摄影检查的植入式心脏起搏器、心脏复律除颤器、心脏再同步治疗设备和心脏监护仪患者。我们创建了一个以 ResNet-50 为骨干的 U-Net 模型,用于对 DICOM 和智能手机图像上的 CIED 进行分类。利用 897 名患者(中位年龄 76 岁(18-96 岁不等);625 名男性,272 名女性)的 2321 张 CXR,将 CIED 分成 4 个制造商、27 个型号和一个 "其他 "类别。使用五部智能手机获取了 11,072 张图像。性能报告分别使用验证集上的骰子系数(Dice coefficient)进行分割,或使用测试集上的平衡准确率(balanced accuracy)进行制造商和型号分类。结果 图像分割工具的平均 Dice 系数为 0.936(IQR:0.890-0.958)。该模型的 CIED 制造商分类准确率为 94.36%(95% CI:90.93%-96.84%;n = 251/266),CIED 模型分类准确率为 84.21%(95% CI:79.31%-88.30%;n = 224/266)。结论 在传统 DICOM 和智能手机图像上训练的深度学习模型,对 CXR 上 CIED 的分割和分类显示出很高的准确性。©RSNA, 2024.
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