利用深度学习从24小时动态心电图记录中自动筛选房颤患者。

IF 3.9 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS
Peng Zhang, Fan Lin, Fei Ma, Yuting Chen, Siyi Fang, Haiyan Zheng, Zuwen Xiang, Xiaoyun Yang, Qiang Li
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引用次数: 1

摘要

目的:随着对房颤(AF)筛查需求的增加,临床医生花费大量时间从长期动态心电图(ECG)监测中获得的大量数据中识别房颤信号。AF信号的识别是主观的,取决于临床医生的经验。然而,经验丰富的心脏病专家是稀缺的。本研究旨在应用基于深度学习的算法,通过24小时动态心电图监测对房颤患者进行全自动初步筛查。方法和结果:开发了一个深度学习模型,根据RR间隔自动检测AF发作,并对来自23 452例患者的23 621(2297例AF和21 324例非AF) 24小时动态心电图进行了训练和评估。根据AF发作检测结果,使用至少一次AF发作持续6分钟或更长时间的标准自动识别AF患者。通过独立的真实世界医院场景测试集(19227个录音)和社区场景测试集(1299个录音)对性能进行评估。对于两个测试集,该模型对AF患者的识别具有较高的性能(灵敏度分别为0.995和1.000;特异性:分别为0.985和0.997)。并且获得了良好且一致的性能(灵敏度:1.000;特异性:0.972)。结论:深度学习模型以至少一次房颤发作6 min及以上为标准,可从长期动态心电图监测数据中全自动、高精度地筛选房颤患者。这种方法可以作为一种强大的和具有成本效益的工具,用于房颤的初步筛查。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Automatic screening of patients with atrial fibrillation from 24-h Holter recording using deep learning.

Automatic screening of patients with atrial fibrillation from 24-h Holter recording using deep learning.

Automatic screening of patients with atrial fibrillation from 24-h Holter recording using deep learning.

Automatic screening of patients with atrial fibrillation from 24-h Holter recording using deep learning.

Aims: As the demand for atrial fibrillation (AF) screening increases, clinicians spend a significant amount of time identifying AF signals from massive amounts of data obtained during long-term dynamic electrocardiogram (ECG) monitoring. The identification of AF signals is subjective and depends on the experience of clinicians. However, experienced cardiologists are scarce. This study aimed to apply a deep learning-based algorithm to fully automate primary screening of patients with AF using 24-h Holter monitoring.

Methods and results: A deep learning model was developed to automatically detect AF episodes using RR intervals and was trained and evaluated on 23 621 (2297 AF and 21 324 non-AF) 24-h Holter recordings from 23 452 patients. Based on the AF episode detection results, patients with AF were automatically identified using the criterion of at least one AF episode lasting 6 min or longer. Performance was assessed on an independent real-world hospital-scenario test set (19 227 recordings) and a community-scenario test set (1299 recordings). For the two test sets, the model obtained high performance for the identification of patients with AF (sensitivity: 0.995 and 1.000; specificity: 0.985 and 0.997, respectively). Moreover, it obtained good and consistent performance (sensitivity: 1.000; specificity: 0.972) for an external public data set.

Conclusion: Using the criterion of at least one AF episode of 6 min or longer, the deep learning model can fully automatically screen patients for AF with high accuracy from long-term Holter monitoring data. This method may serve as a powerful and cost-effective tool for primary screening for AF.

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