Clinical Validation of Non-invasive Simulation-Based Determination of Vascular Impedance, Wave Intensity, and Hydraulic Work in Patients Undergoing Transcatheter Aortic Valve Replacement.

IF 3 2区 医学 Q3 ENGINEERING, BIOMEDICAL
Jonathan Y Brown, Gabriela Veiga Fernandez, Jose M De La Torre Hernández, Michael Murphy, Benjamin S Wessler, Elazer R Edelman
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Abstract

Purpose: The impact of Aortic Stenosis (AS) on the left ventricle (LV) extends beyond the influence of the pressure drop across the stenotic valve, but also includes the additional serial afterload imposed by the vascular system. Aortic input impedance is the gold standard for comprehensively studying the contribution of the vascular system to total myocardial afterload, but in the past measurement has been challenging arising from the need for invasive catheterization or specialized equipment to precisely record time-resolved blood pressure and flow signals. The goal of this work was to develop and validate a novel simulation-based method for determining aortic input impedance using only clinically available echocardiographic data and a simple blood pressure measurement.

Methods: A simulation-based method to determine vascular impedance was developed using echocardiographic data and a brachial blood pressure measurement. Simulation-based impedance was compared to impedance calculated from echocardiographic flow data and pressure data from a non-invasive central pressure measurement device.

Results: In validation analysis comparing patient-specific simulation-based vascular impedance to non-invasively measured impedance, correlation between methods across a range of vascular parameters varied between R2 = 0.40 and 0.99. A tendency was seen toward underestimation of pressure waveforms in point-by-point comparison of measured and simulated waveforms with an overall mean difference of 4.01 mmHg.

Conclusions: Requiring only non-invasive clinical data that are widely available, simulation-based vascular impedance has the potential to allow for easier, more widespread, and larger-scale investigation of the effect of vascular impedance on total LV afterload.

基于无创模拟的经导管主动脉瓣置换术患者血管阻抗、波强度和液压功测定的临床验证。
目的:主动脉瓣狭窄(AS)对左心室(LV)的影响超出了狭窄瓣膜压降的影响范围,还包括血管系统造成的额外序列后负荷。主动脉输入阻抗是全面研究血管系统对心肌总后负荷贡献的黄金标准,但在过去,由于需要有创导管或专业设备来精确记录时间分辨的血压和血流信号,因此测量具有挑战性。这项工作的目标是开发并验证一种基于模拟的新方法,仅使用临床可用的超声心动图数据和简单的血压测量来确定主动脉输入阻抗:方法:利用超声心动图数据和肱动脉血压测量,开发了一种基于模拟的方法来确定血管阻抗。方法:利用超声心动图数据和肱动脉血压测量数据,开发了一种基于模拟的方法来确定血管阻抗,并将基于模拟的阻抗与通过超声心动图血流数据和无创中心压力测量设备的压力数据计算出的阻抗进行了比较:结果:在对患者特定的模拟血管阻抗与无创阻抗测量进行比较的验证分析中,各种血管参数的测量方法之间的相关性介于 R2 = 0.40 和 0.99 之间。在逐点比较测量波形和模拟波形时,发现有低估压力波形的趋势,总体平均差异为 4.01 mmHg:基于模拟的血管阻抗只需要广泛可用的无创临床数据,就有可能更容易、更广泛、更大规模地研究血管阻抗对左心室总后负荷的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Annals of Biomedical Engineering
Annals of Biomedical Engineering 工程技术-工程:生物医学
CiteScore
7.50
自引率
15.80%
发文量
212
审稿时长
3 months
期刊介绍: Annals of Biomedical Engineering is an official journal of the Biomedical Engineering Society, publishing original articles in the major fields of bioengineering and biomedical engineering. The Annals is an interdisciplinary and international journal with the aim to highlight integrated approaches to the solutions of biological and biomedical problems.
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