手指PPG与桡动脉BP波形频率分量相关性的初步研究

H. Hsiu, Chia-Liang Hsu, Tsung-Lin Wu
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引用次数: 7

摘要

目的:血压(BP)波形在循环系统疾病的研究中具有重要意义,但其无创评估在实际应用中不够人性化。在本研究中,我们试图建立一个用户友好的PPG测量系统,并研究径向BP与手指光体积脉搏波(PPG)波形的相关性。方法:通过在被测手指上施加适当的接触压力和适应手指佩戴的手型模具来提高自制PPG测量系统的用户友好性。然后对健康志愿者(n=?)同时无创地测量手指PPG和桡动脉血压信号。在对每1分钟记录数据序列进行频域分析时,将线性回归应用于BP和PPG波形之间的计算振幅比。结果:经过一系列的测试,发现PPG测量系统是用户友好的,并且在被测PPG波形内的频率成分具有良好的再现性。前三个谐波的幅值比BP-PPG回归均显著(R2值均> 0.72)。结论:本研究建立了一个用户友好的PPG测量系统,并开发了一种频域分析方法来研究BP与PPG波形的相关性。我们希望无创PPG测量系统和频域波形分析可以为径向血压波形的重建提供一种替代的、更人性化的方法,从而拓宽血压波形分析的应用范围,从而对重要的循环系统疾病有更深入的了解。
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A preliminary study on the correlation of frequency components between finger PPG and radial arterial BP waveforms
Objective: Blood pressure (BP) waveform has important meaning in the study of circulatory diseases, but its noninvasive assessment is not sufficiently user-friendly for practical applications. In the present study, we try to build up a user-friendly PPG measurement system, and study the correlation between radial BP and finger photoplethysmography (PPG) waveforms Methods: User-friendliness of a self-made PPG measurement system was improved by applying an appropriate contacting pressure on the measured finger and adapting a hand-shape mold for the finger to put on. Finger PPG and radial-artery BP signals were then measured simultaneously and noninvasively on healthy volunteers (n=?). In frequency-domain analysis performed on each 1-minute recorded data sequence, the linear regression was applied to the calculated amplitude ratios between BP and PPG waveforms. Results: After a series of testing, the PPG measurement system was found to be user-friendly and has a good reproducibility in the frequency components within the measured PPG waveform. The BP-PPG regression of amplitude ratios were all significant (R2 values all ≫0.72) for the first three harmonics. Conclusion: In the present study we built up a user-friendly PPG measurement system, and developed a frequency-domain analysis method to study the correlation between BP and PPG waveforms. We hope that the noninvasive PPG measurement system and the frequency-domain waveform analysis can provide an alternative and a more user-friendly method to reconstruct the radial BP waveform, and hence broaden the application of BP waveform analysis, which may bring deeper understanding for important circulatory diseases.
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