Effect of Oxygen Concentration Reduction on Photoplethysmographic Waveform Characteristics

2022 Computing in Cardiology (CinC) Pub Date : 2022-09-04 DOI:10.22489/CinC.2022.120

Yang Li, Jianqing Li, Zhengtao Cao, Chengyu Liu

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Abstract

This paper aims to find out the difference of human photoplehysmography (PPG) morphological parameter K between in normal oxygen concentration regions and in low oxygen level environments. We implemented an experiment with a normobaric hypoxic chamber which generalized low oxygen level environment of 13.4% (equivalent to the altitude of 3600 m). The experiment contained two sections-10 minutes short exposure and a night of sleep. Fingertip PPG signal was recorded in the whole process. We carried out a comparative analysis for each subject in normal and hypoxic conditions. Result showed that the average K values in normoxic environment and hypoxic conditions for short exposure were 0.3456 and 0.3861 respectively, and for sleep were 0.3081 and 0.3419 respectively. Significance level p were both less than 0.05. Variations of PPG waveform parameter K reflect the changed peripheral vascular resistance. In hypoxic environment, the raised K value tallied with the physiological mechanism that hypoxic exposure increases peripheral vascular resistance. And this phenomenon happened since the beginning of hypoxia and could last for at least a night.

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氧浓度降低对光容积脉搏波波形特征的影响

本文旨在了解正常氧浓度区域与低氧环境下人体光血饱和度(PPG)形态学参数K的差异。实验采用常压低氧舱，在13.4%(相当于海拔3600米)的低氧环境下进行，实验分为两个部分:10分钟短暴露和1晚睡眠。整个过程中记录指尖PPG信号。我们对每个受试者在正常和缺氧条件下进行了对比分析。结果表明，常氧和低氧条件下短时间暴露的平均K值分别为0.3456和0.3861，睡眠条件下的平均K值分别为0.3081和0.3419。显著性水平p均小于0.05。PPG波形参数K的变化反映了周围血管阻力的变化。在低氧环境下，K值升高符合低氧暴露增加外周血管阻力的生理机制。这种现象从缺氧开始就发生了，可能会持续至少一个晚上。

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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2022 Computing in Cardiology (CinC)

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