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使用脉搏传输时间进行连续血压测量:与基于袖带的方法比较。

Continuous blood pressure measurement by using the pulse transit time: comparison to a cuff-based method.

机构信息

Institute of Vegetative Physiology, Charité-Universitätsmedizin Berlin, Berlin, Germany.

出版信息

Eur J Appl Physiol. 2012 Jan;112(1):309-15. doi: 10.1007/s00421-011-1983-3. Epub 2011 May 10.

DOI:10.1007/s00421-011-1983-3
PMID:21556814
Abstract

Pulse transit time (PTT) and pulse wave velocity (PWV), respectively, were shown to have a correlation with systolic blood pressure (SBP) and have been reported to be suitable for indirect BP measurements. The aim of this study was to create a function between SBP and PWV, and to test its reliability for the determination of absolute SBP using a non-linear algorithm and a one-point calibration. 63 volunteers performed exercise to induce rises in BP. Arterial PTT was measured between the R-spike of the ECG and the plethysmographic curve of finger pulse-oximetry. The reference BP was measured using a cuff-based sphygmomanometric aneroid device. Data from 13 of the 63 volunteers served for the detection of the PWV-BP relationship. The created non-linear function was used to calculate BP values after individual correction for the BP offset in a group of 50 volunteers. Individual correlation coefficients for SBP measured by PTT (SBP(PTT)) and by cuff (SBP(CUFF)) varied between r = 0.69 and r = 0.99. Taking all data together, we found r = 0.83 (276 measurements in 50 volunteers). In the Bland-Altman plot, the limits of agreement were [Formula: see text]± 19.8 mmHg. In conclusion, comparing SBP values using the PTT-based method and those measured by cuff resulted in a significant correlation. However, the Bland-Altman plot shows relevant differences between both methods, which are partly due to greater variability of the SBP(PTT) measurement during intensified exercise. Results suggest that PTT can be used for measuring absolute SBP when performing an individual correction for the offset of the BP-PWV relation.

摘要

脉搏传输时间 (PTT) 和脉搏波速度 (PWV) 分别与收缩压 (SBP) 相关,并且已经被证明适合间接测量血压。本研究的目的是创建一个 SBP 与 PWV 之间的函数,并通过非线性算法和单点校准来测试其确定绝对 SBP 的可靠性。63 名志愿者进行运动以引起血压升高。动脉 PTT 是在心电图的 R 波峰和手指脉搏血氧仪的容积描记曲线之间测量的。参考血压是使用基于袖带的血压计气压计设备测量的。63 名志愿者中的 13 名志愿者的数据用于检测 PWV-BP 关系。创建的非线性函数用于在 50 名志愿者的一组中对血压偏移进行个体校正后计算 BP 值。通过 PTT(SBP(PTT))和袖带(SBP(CUFF))测量的 SBP 的个体相关系数在 r = 0.69 到 r = 0.99 之间变化。将所有数据放在一起,我们发现 r = 0.83(50 名志愿者的 276 次测量)。在 Bland-Altman 图中,一致性界限为 [公式:见正文]±19.8mmHg。总之,使用基于 PTT 的方法和袖带测量的 SBP 值之间存在显著相关性。然而,Bland-Altman 图显示了两种方法之间的相关差异,这部分是由于在强化运动期间 SBP(PTT)测量的变异性更大。结果表明,当对 BP-PWV 关系的偏移进行个体校正时,PTT 可用于测量绝对 SBP。

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