Machine-learning guided differentiation between photoplethysmography waveforms of supraventricular and ventricular origin

IF 4.9 2区医学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Computer methods and programs in biomedicine Pub Date : 2025-04-20 DOI:10.1016/j.cmpb.2025.108798

Martin Manninger , Ingmar Lercher , Astrid N.L. Hermans , Jonas L. Isaksen , Anton J. Prassl , Andreas Zirlik , Kevin Vernooy , Sevasti-Maria Chaldoupi , Justin Luermans , Rachel M.A. ter Bekke , Jørgen K. Kanters , Gernot Plank , Daniel Scherr , Thomas Pock , Dominik Linz

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引用次数: 0

Abstract

Background

It is unclear, whether photoplethysmography (PPG) waveforms from wearable devices can differentiate between supraventricular and ventricular arrhythmias.

We assessed, whether a neural network-based classifier can distinguish the origin of PPG pulse waveforms.

Methods

In thirty patients undergoing invasive electrophysiological (EP) studies for narrow complex tachycardia, PPG waveforms were recorded using a PPG wristband (Empatica E4) in parallel to 12-lead surface electrocardiograms (ECGs) and intracardiac bipolar electrograms. PPG waveforms were annotated to either atrial (AP, supraventricular) or ventricular pacing (VP) based on bipolar electrograms, ECGs and stimulation protocols. 25 221 samples were split into training, testing, and validation data sets and used to develop, optimize and validate a residual network based on convolutional layers for classifying PPG waveforms according to their origin into AP or VP.

Results

Datasets were complete for 27 patients. 74 % were female, median age was 53 (range 18, 78) years and median BMI was 27±5 kg/m². The electrophysiological study revealed typical atrioventricular nodal re-entrant tachycardias in 63 %, atrial tachycardias in 15 % and no inducible tachyarrhythmias in 12 % of patients. On an independent patient level, correct prediction was possible in ∼73 % for AP and ∼59 % for VP. With adaptive performance built on previous patient-specific annotations, the classifier correctly predicted the origins of PPG-derived pulse waves in ∼97 % for AP and ∼95 % for VP.

Conclusions

A neural network trained on ground truth PPG data collected during EP studies could distinguish between supraventricular or ventricular origin from PPG waveforms alone.

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机器学习引导区分室上和室源光体积脉搏波

背景：目前尚不清楚可穿戴设备的光容积脉搏波（PPG）波形是否可以区分室上性心律失常和室性心律失常。我们评估了基于神经网络的分类器是否可以区分PPG脉冲波形的来源。方法对30例窄性复杂心动过速行有创电生理（EP）检查的患者，采用PPG腕带（Empatica E4）记录PPG波形，并与12导联体表心电图（ecg）和心内双极心电图（ecg）对照。根据双极电图、心电图和刺激方案，将PPG波形标注为心房（AP、室上）或心室起搏（VP）。25221个样本被分成训练、测试和验证数据集，用于开发、优化和验证基于卷积层的残差网络，用于根据PPG波形的起源将其分类为AP或VP。结果27例患者数据集完整。女性占74%，中位年龄53岁（18 ~ 78岁），中位BMI为27±5 kg/m²。电生理研究显示63%的患者有典型的房室结再入性心动过速，15%的患者有房性心动过速，12%的患者无诱发性心动过速。在独立的患者水平上，AP和VP的正确预测率分别为~ 73%和~ 59%。基于先前患者特异性注释的自适应性能，分类器正确预测ppg衍生脉冲波的起源，AP为97%，VP为95%。结论对心电研究中收集的真实PPG数据进行训练的神经网络可以单独从PPG波形中区分室上源或室源。

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

Computer methods and programs in biomedicine 工程技术-工程：生物医学

CiteScore

12.30

自引率

6.60%

发文量

601

审稿时长

135 days

期刊介绍： To encourage the development of formal computing methods, and their application in biomedical research and medical practice, by illustration of fundamental principles in biomedical informatics research; to stimulate basic research into application software design; to report the state of research of biomedical information processing projects; to report new computer methodologies applied in biomedical areas; the eventual distribution of demonstrable software to avoid duplication of effort; to provide a forum for discussion and improvement of existing software; to optimize contact between national organizations and regional user groups by promoting an international exchange of information on formal methods, standards and software in biomedicine. Computer Methods and Programs in Biomedicine covers computing methodology and software systems derived from computing science for implementation in all aspects of biomedical research and medical practice. It is designed to serve: biochemists; biologists; geneticists; immunologists; neuroscientists; pharmacologists; toxicologists; clinicians; epidemiologists; psychiatrists; psychologists; cardiologists; chemists; (radio)physicists; computer scientists; programmers and systems analysts; biomedical, clinical, electrical and other engineers; teachers of medical informatics and users of educational software.