通过不同方法无创性估测主动脉僵硬度。
Noninvasive Estimation of Aortic Stiffness Through Different Approaches.
机构信息
From the Department of Cardiovascular Neural and Metabolic Sciences, Istituto Auxologico Italiano, IRCCS, Milan, Italy (P.S., A.G., A.F., G.P.).
Department of Interventional Cardiology, Policlinico di Monza, Monza, Italy (F.S., G.S.).
出版信息
Hypertension. 2019 Jul;74(1):117-129. doi: 10.1161/HYPERTENSIONAHA.119.12853. Epub 2019 May 28.
Aortic pulse wave velocity is a worldwide accepted index to evaluate aortic stiffness and can be assessed noninvasively by several methods. This study sought to determine if commonly used noninvasive devices can all accurately estimate aortic pulse wave velocity. Pulse wave velocity was estimated in 102 patients (aged 65±13 years) undergoing diagnostic coronary angiography with 7 noninvasive devices and compared with invasive aortic pulse wave velocity. Devices evaluating carotid-femoral pulse wave velocity (Complior Analyse, PulsePen ET, PulsePen ETT, and SphygmoCor) showed a strong agreement between each other ( r>0.83) and with invasive aortic pulse wave velocity. The mean difference ±SD with the invasive pulse wave velocity was -0.73±2.83 m/s ( r=0.64) for Complior-Analyse: 0.20±2.54 m/s ( r=0.71) for PulsePen-ETT: -0.04±2.33 m/s ( r=0.78) for PulsePen ET; and -0.61±2.57 m/s ( r=0.70) for SphygmoCor. The finger-toe pulse wave velocity, evaluated by pOpmètre, showed only a weak relationship with invasive aortic recording (mean difference ±SD =-0.44±4.44 m/s; r=0.41), and with noninvasive carotid-femoral pulse wave velocity measurements ( r<0.33). Pulse wave velocity estimated through a proprietary algorithm by BPLab (v.5.03 and v.6.02) and Mobil-O-Graph showed a weaker agreement with invasive pulse wave velocity compared with carotid-femoral pulse wave velocity (mean difference ±SD =-0.71±3.55 m/s, r=0.23; 1.04±2.27 m/s, r=0.77; and -1.01±2.54 m/s, r=0.71, respectively), revealing a negative proportional bias at Bland-Altman plot. Aortic pulse wave velocity values provided by BPLab and Mobil-O-Graph were entirely dependent on age-squared and peripheral systolic blood pressure (cumulative r=0.98 and 0.99, respectively). Thus, among the methods evaluated, only those assessing carotid-femoral pulse wave velocity (Complior Analyse, PulsePen ETT, PulsePen ET, and SphygmoCor) appear to be reliable approaches for estimation of aortic stiffness.
脉搏波速度是评估主动脉僵硬度的全球公认指标,可以通过多种方法进行无创评估。本研究旨在确定常用的无创设备是否都能准确估计脉搏波速度。在接受诊断性冠状动脉造影的 102 名患者(年龄 65±13 岁)中,使用 7 种无创设备估计脉搏波速度,并与有创主动脉脉搏波速度进行比较。评估颈-股脉搏波速度的设备(Complior Analyse、PulsePen ET、PulsePen ETT 和 SphygmoCor)彼此之间具有很强的一致性(r>0.83),并且与有创主动脉脉搏波速度也具有很强的一致性。与有创脉搏波速度相比,Complior-Analyse 的平均差值±SD 为-0.73±2.83 m/s(r=0.64),PulsePen-ETT 为 0.20±2.54 m/s(r=0.71),PulsePen ET 为-0.04±2.33 m/s(r=0.78),SphygmoCor 为-0.61±2.57 m/s(r=0.70)。通过 pOpmètre 评估的指-趾脉搏波速度与有创主动脉记录仅具有较弱的相关性(平均差值±SD=-0.44±4.44 m/s;r=0.41),与无创颈-股脉搏波速度测量值的相关性也较弱(r<0.33)。BPLab(v.5.03 和 v.6.02)和 Mobil-O-Graph 采用专有算法估计的脉搏波速度与有创脉搏波速度相比,与颈-股脉搏波速度的一致性更差(平均差值±SD=-0.71±3.55 m/s,r=0.23;1.04±2.27 m/s,r=0.77;-1.01±2.54 m/s,r=0.71),在 Bland-Altman 图上显示出负比例偏差。BPLab 和 Mobil-O-Graph 提供的脉搏波速度值完全取决于年龄的平方和外周收缩压(累积 r=0.98 和 0.99)。因此,在所评估的方法中,只有那些评估颈-股脉搏波速度的方法(Complior Analyse、PulsePen ETT、PulsePen ET 和 SphygmoCor)似乎是估计主动脉僵硬度的可靠方法。
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