双通道光电容积脉搏波描记法监测血管硬度的局部变化。

Dual-channel photoplethysmography to monitor local changes in vascular stiffness.

作者信息

Foo Jong Yong Abdiel, Lim Chu Sing

机构信息

Biomedical Engineering Research Centre, Nanyang Technological University, 6th Storey, XFrontiers Block, 50 Nanyang Drive, Research Techno Plaza, Singapore, 637553, Singapore.

出版信息

J Clin Monit Comput. 2006 Jun;20(3):221-7. doi: 10.1007/s10877-006-9024-1. Epub 2006 Jun 15.

DOI:10.1007/s10877-006-9024-1

PMID:16775657

Abstract

OBJECTIVES

Monitoring arterial distensibility changes is important to understand the cardiovascular status of patient. Pulse transit time (PTT), which is an inverse equivalent of pulse wave velocity (PWV), has shown its potential in such studies. However, its methodological approach in using an electrocardiogram and a peripheral photoplethysmography (PPG) is limited due to the inclusion of pre-ejection period (PEP) in its computation. Previous studies have suggested the using the transit time difference between two peripheral measuring sites (PTT-D) instead. However, it requires two medical instruments and may not be efficient in terms of equipment utility, especially in prolonged clinical studies.

METHODS

Postural changes are known to cause complex haemodynamics adaptation and thereby affecting transit time measurements. A customised dual-channel PPG system based on discrete electronic devices was constructed to evaluate against conventional peripheral-based PTT. 10 healthy adults (7 male; mean age 27.0 yr) were recruited to assess the differences observed in PTT and PTT-D during two postural change test activities.

RESULTS

PTT-D derived from the customised PPG system registered 43.3+/- 5.6 ms and - 31.1+/- 3.8 ms relative changes for the two regulated activities while conventional PTT recorded 43.6+/- 10.3 ms and -31.0+/-m 6.5 ms respectively. The former may have similar results but have significantly lower variance (< 0.05).

CONCLUSIONS

Findings herein suggest that PTT-D derived from the customised PPG system shows potential. It can be used as an alternative to conventional peripheral-based PTT and possibly as a direct assessment of arterial distensibility or PWV variations as it does not include PEP in its time-related computations.

摘要

目的

监测动脉扩张性变化对于了解患者的心血管状况很重要。脉搏传输时间（PTT）是脉搏波速度（PWV）的倒数等效值，已在这类研究中显示出其潜力。然而，其使用心电图和外周光电容积脉搏波描记法（PPG）的方法在计算中包含射血前期（PEP），因此存在局限性。先前的研究建议改用两个外周测量部位之间的传输时间差（PTT-D）。然而，这需要两台医疗仪器，并且在设备实用性方面可能效率不高，尤其是在长期临床研究中。

方法

已知体位变化会引起复杂的血流动力学适应，从而影响传输时间测量。构建了基于离散电子设备的定制双通道PPG系统，以与传统的基于外周的PTT进行评估。招募了10名健康成年人（7名男性；平均年龄27.0岁），以评估在两项体位变化测试活动中观察到的PTT和PTT-D的差异。

结果

定制PPG系统得出的PTT-D在两项规定活动中的相对变化分别为43.3±5.6毫秒和-31.1±3.8毫秒，而传统PTT分别记录为43.6±10.3毫秒和-31.0±6.5毫秒。前者可能有相似的结果，但方差显著更低（<0.05）。

结论

本文的研究结果表明，定制PPG系统得出的PTT-D具有潜力。它可以用作传统外周PTT的替代方法，并且可能用作动脉扩张性或PWV变化的直接评估方法，因为它在与时间相关的计算中不包括PEP。

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双通道光电容积脉搏波描记法监测血管硬度的局部变化。

Dual-channel photoplethysmography to monitor local changes in vascular stiffness.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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