Deep learning-based analysis of 12-lead electrocardiograms in school-age children: a proof of concept study.

IF 2.8 3区医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

Frontiers in Cardiovascular Medicine Pub Date : 2025-03-05 eCollection Date: 2025-01-01 DOI:10.3389/fcvm.2025.1471989

Shuhei Toba, Yoshihide Mitani, Yusuke Sugitani, Hiroyuki Ohashi, Hirofumi Sawada, Mami Takeoka, Naoki Tsuboya, Kazunobu Ohya, Noriko Yodoya, Takato Yamasaki, Yuki Nakayama, Hisato Ito, Masahiro Hirayama, Motoshi Takao

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引用次数: 0

Abstract

Introduction: The diagnostic performance of automated analysis of electrocardiograms for screening children with pediatric heart diseases at risk of sudden cardiac death is unknown. In this study, we aimed to develop and validate a deep learning-based model for automated analysis of ECGs in children.

Methods: Wave data of 12-lead electrocardiograms were transformed into a tensor sizing 2 × 12 × 400 using signal processing methods. A deep learning-based model to classify abnormal electrocardiograms based on age, sex, and the transformed wave data was developed using electrocardiograms performed in patients at the age of 6-18 years during 2003-2006 at a tertiary referral hospital in Japan. Eighty-three percent of the patients were assigned to a training group, and 17% to a test group. The diagnostic performance of the model and a conventional algorithm (ECAPS12C, Nihon Kohden, Japan) for classifying abnormal electrocardiograms were evaluated using the cross-tabulation, McNemar's test, and decision curve analysis.

Results: We included 1,842 ECGs performed in 1,062 patients in this study, and 310 electrocardiograms performed in 177 patients were included in the test group. The specificity of the deep learning-based model for detecting abnormal electrocardiograms was not significantly different from that of the conventional algorithm. For detecting electrocardiograms with ST-T abnormality, complete right bundle branch block, QRS axis abnormality, left ventricular hypertrophy, incomplete right bundle branch block, WPW syndrome, supraventricular tachyarrhythmia, and Brugada-type electrocardiograms, the specificity of the deep learning-based model was higher than that of the conventional algorithm at the same sensitivity.

Conclusions: The present new deep learning-based method of screening for abnormal electrocardiograms in children showed at least a similar diagnostic performance compared to that of a conventional algorithm. Further studies are warranted to develop an automated analysis of electrocardiograms in school-age children.

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基于深度学习的学龄儿童12导联心电图分析：概念验证研究。

导读：心电图自动分析在筛查有心源性猝死风险的儿童心脏病患者中的诊断性能尚不清楚。在这项研究中，我们旨在开发和验证一种基于深度学习的模型，用于儿童心电图的自动分析。方法：采用信号处理方法将12导联心电图波形数据转换为2 × 12 × 400张量。利用2003-2006年在日本一家三级转诊医院进行的6-18岁患者的心电图，开发了基于年龄、性别和转换波数据的基于深度学习的异常心电图分类模型。83%的患者被分配到训练组，17%的患者被分配到试验组。采用交叉表法、McNemar检验和决策曲线分析对模型和常规的异常心电图分类算法（ECAPS12C, Nihon Kohden, Japan）的诊断性能进行评估。结果：本研究纳入1062例患者的1842例心电图，试验组纳入177例患者的310例心电图。基于深度学习的模型检测异常心电图的特异性与常规算法无显著差异。对于ST-T异常、完全性右束支传导阻滞、QRS轴异常、左室肥厚、不完全性右束支传导阻滞、WPW综合征、室上性心动过速、brugada型心电图的检测，在相同灵敏度下，深度学习模型的特异性高于常规算法。结论：与传统算法相比，目前基于深度学习的儿童异常心电图筛查新方法至少显示出相似的诊断性能。需要进一步的研究来开发学龄儿童心电图的自动分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Cardiovascular Medicine Medicine-Cardiology and Cardiovascular Medicine

CiteScore

3.80

自引率

11.10%

发文量

3529

审稿时长

14 weeks

期刊介绍： Frontiers? Which frontiers? Where exactly are the frontiers of cardiovascular medicine? And who should be defining these frontiers? At Frontiers in Cardiovascular Medicine we believe it is worth being curious to foresee and explore beyond the current frontiers. In other words, we would like, through the articles published by our community journal Frontiers in Cardiovascular Medicine, to anticipate the future of cardiovascular medicine, and thus better prevent cardiovascular disorders and improve therapeutic options and outcomes of our patients.