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利用生物阻抗和连续波雷达的脉搏传输时间估计血压

Blood Pressure Estimation Using Pulse Transit Time From Bioimpedance and Continuous Wave Radar.

作者信息

Buxi Dilpreet, Redout Jean-Michel, Yuce Mehmet Rasit

出版信息

IEEE Trans Biomed Eng. 2017 Apr;64(4):917-927. doi: 10.1109/TBME.2016.2582472. Epub 2016 Jun 20.

DOI:10.1109/TBME.2016.2582472
PMID:27337707
Abstract

OBJECTIVE

We have developed and tested a new architecture for pulse transit time (PTT) estimation at the central arteries using electrical bioimpedance, electrocardiogram, and continuous wave radar to estimate cuffless blood pressure.

METHODS

A transmitter and receiver antenna are placed at the sternum to acquire the arterial pulsation at the aortic arch. A four-electrode arrangement across the shoulders acquires arterial pulse across the carotid and subclavian arteries from bioimpedance as well as a bipolar lead I electrocardiogram. The PTT and pulse arrival times (PATs) are measured on six healthy male subjects during exercise on a bicycle ergometer. Using linear regression, the estimated PAT and PTT values are calibrated to the systolic and mean as well as diastolic blood pressure from an oscillometric device.

RESULTS

For all subjects, the Pearson correlation coefficients for PAT-SBP and PTT-SBP are -0.66 (p = 0.001) and -0.48 (p = 0.0029), respectively. Correlation coefficients for individual subjects ranged from -0.54 to -0.9 and -0.37 to -0.95, respectively.

CONCLUSION

The proposed system architecture is promising in estimating cuffless arterial blood pressure at the central, proximal arteries, which obey the Moens-Korteweg equation more closely when compared to peripheral arteries.

SIGNIFICANCE

An important advantage of PTT from the carotid and subclavian arteries is that the PTT over the central elastic arteries is measured instead of the peripheral arteries, which potentially reduces the changes in PTT due to vasomotion. Furthermore, the sensors can be completely hidden under a patients clothes, making them more acceptable by the patient for ambulatory monitoring.

摘要

目的

我们开发并测试了一种新的架构,用于利用生物电阻抗、心电图和连续波雷达在中心动脉处估计脉搏传输时间(PTT),以估计无袖带血压。

方法

在胸骨处放置一个发射器和接收器天线,以获取主动脉弓处的动脉搏动。横跨肩部的四电极装置可从生物电阻抗以及双极I导联心电图获取颈动脉和锁骨下动脉的动脉脉搏。在六名健康男性受试者进行自行车测力计运动期间测量PTT和脉搏到达时间(PAT)。使用线性回归,将估计的PAT和PTT值根据示波装置的收缩压、平均压以及舒张压进行校准。

结果

对于所有受试者,PAT与收缩压(SBP)以及PTT与SBP的Pearson相关系数分别为-0.66(p = 0.001)和-0.48(p = 0.0029)。各个受试者的相关系数分别在-0.54至-0.9以及-0.37至-0.95之间。

结论

所提出的系统架构在估计中心近端动脉的无袖带动脉血压方面很有前景,与外周动脉相比,这些动脉更符合Moens-Korteweg方程。

意义

从颈动脉和锁骨下动脉测量PTT的一个重要优势在于,测量的是中心弹性动脉上的PTT而非外周动脉的PTT,这有可能减少血管运动引起的PTT变化。此外,传感器可以完全隐藏在患者衣服下面,使患者更易于接受用于动态监测。

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