Seismocardiographic Signal Variability During Regular Breathing and Breath Hold in Healthy Adults

2019 IEEE Signal Processing in Medicine and Biology Symposium (SPMB) Pub Date : 2019-12-01 DOI:10.1109/SPMB47826.2019.9037852

M. K. Azad, P. Gamage, R. Sandler, N. Raval, H. Mansy

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引用次数: 5

Abstract

Seismocardiographic signals (SCG) are known to correlate with mechanical cardiac activity and may be used for monitoring patients with cardiovascular disease. However, SCG variability is not well understood and may interfere with signal utility. In the current study, the SCG signals were acquired in 5 healthy subjects during regular breathing along with ECG and respiratory flow measurements. In addition, SCG waveforms were recorded during breath hold at end inspiration as well as end expiration. The SCG events were identified and segmented using ECG events. SCG waveforms during regular breathing were separated into two clusters using unsupervised machine learning. The variability was assessed for the clustered and un-clustered SCG by analyzing the Dynamic Time Warping (DTW) distances of SCG waveforms in the time domain. The inter-group variability between the normal breathing clusters and breath hold suggested that cluster 2 events were more similar to end expiration events while no clear trend was observed for cluster 1. The intra-group variability was reduced by approximately 19% for regular breathing clusters and 42% during breath hold compared to the unclustered SCG during normal breathing. The reduced variability during breath hold suggests the utility of SCG recording at breath hold since variability reduction can lead to more robust methods for longitudinal patient monitoring.

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健康成人正常呼吸和屏气时的心震信号变异性

地震心动图信号(SCG)已知与机械心脏活动相关，可用于监测心血管疾病患者。然而，SCG的变异性尚未得到很好的理解，可能会干扰信号的利用。在本研究中，我们采集了5名健康受试者在正常呼吸时的SCG信号，并测量了心电图和呼吸流量。同时记录吸气末屏气和呼气末屏气时的SCG波形。利用ECG事件对SCG事件进行识别和分割。使用无监督机器学习将正常呼吸时的SCG波形分成两个簇。通过分析聚类和非聚类SCG波形的时域动态时间翘曲(DTW)距离，对聚类和非聚类SCG的变异性进行了评估。正常呼吸组和屏息组之间的组间差异表明，第2类事件与呼气末事件更相似，而第1类事件没有明显的趋势。与正常呼吸时未聚类的SCG相比，常规呼吸簇组的组内变异性降低了约19%，屏气时的组内变异性降低了42%。屏气期间变异性的减少表明了屏气时SCG记录的实用性，因为变异性的减少可以导致更可靠的纵向患者监测方法。

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 IEEE Signal Processing in Medicine and Biology Symposium (SPMB)

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