Analysis of Signal-Averaged Electrocardiogram Performance for Body Surface Recordings

2019 Computing in Cardiology (CinC) Pub Date : 2019-09-01 DOI:10.23919/CinC49843.2019.9005816

Nolwenn Tan, L. Bear, M. Potse, Stéphane Puyo, M. Meo, R. Dubois

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引用次数: 4

Abstract

To test the performance of signal averaging on body surface electrocardiograms (SAECG), a comparative analysis of four sources of perturbation, 1) uncorrelated noise, 2) beat alignment, 3) physiological variability and 4) respiratory movement was performed. The first two cases were assessed using a computer model of a ventricular beat. The other two cases were tested using high resolution body surface signals recorded from a torso tank (N=2) and patient data (N=4) respectively. In the first case, SAECG successfully removed a high level of noise made up of white Gaussian noise (WGN) with σ = 10 µV and 50 Hz noise with a signal to noise ratio (SNR) of 9 dB since the root mean square error of the noise (RMSEnoise) was 0.65 ± 0.01 µV and 1.30 ± 0.01 µV, respectively. The RMSE of the averaged QRS (RMSESAQRS) was slightly changed by physiological variability (RMSESAQRS =4.18 ± 1.38 µV) when comparing the SAQRS resulting from the average of 100 different beats taken from the same recording. While SAQRS are distorted by respiration artefacts, the beats selected during the exhalation phase produced the least distortion to the SAQRS with a RMSESAQRS = 16.28 ± 12.58 µV. To conclude, SAECG can efficiently de-noise signals in presence of uncorrelated noise without distorting the SAQRS. However, respiration motion introduces amplitude shift between SAQRS.

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体表记录的信号平均心电图性能分析

为了测试体表心电图(SAECG)信号平均的性能，对四种干扰源进行了比较分析，1)不相关噪声，2)心跳对齐，3)生理变异和4)呼吸运动。前两例使用计算机心室跳动模型进行评估。另外两例分别使用躯干槽记录的高分辨率体表信号(N=2)和患者数据(N=4)进行测试。在第一种情况下，SAECG成功地去除了由σ = 10µV的高斯白噪声(WGN)和信噪比(SNR)为9 dB的50 Hz噪声(RMSEnoise)的均方根误差分别为0.65±0.01µV和1.30±0.01µV)组成的高水平噪声。与同一录音中100次不同节拍的平均QRS相比，平均QRS (RMSESAQRS)的RMSE (RMSESAQRS =4.18±1.38µV)受生理变异的影响略有变化。呼吸伪影会使SAQRS失真，而在呼气阶段选择的节拍对SAQRS失真最小，RMSESAQRS = 16.28±12.58µV。综上所述，SAECG可以有效地去除存在不相关噪声的信号，而不会使SAQRS失真。然而，呼吸运动引入了SAQRS之间的振幅移位。

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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2019 Computing in Cardiology (CinC)

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