Canadian Centre for Agri-Food Research in Health and Medicine, St. Boniface Albrechtsen Research Centre, 351 Tache Avenue, Winnipeg, MB, R2H 2A6, Canada.
Department of Physiology and Pathophysiology, Faculty of Health Sciences, University of Manitoba, Winnipeg, Canada.
BMC Cardiovasc Disord. 2019 Aug 6;19(1):190. doi: 10.1186/s12872-019-1167-3.
Development of instruments capable of detecting early stage vascular disease has increased interest in employing arterial stiffness (e.g. pulse wave velocity (PWV), augmentation index (AIx)) and endothelial dysfunction (e.g. reactive hyperemia index (RHI)) to diagnose atherosclerotic disease before occurrence of a cardiovascular event. However, amongst the equipment designed for this purpose, there is insufficient information regarding each of these parameters to establish appropriate cutoffs to distinguish between healthy and unhealthy blood vessels. To address these limitations, the study was designed to establish the upper arterial stiffness and endothelial function thresholds in a healthy population, by comparing the outputs from different instruments capable of measuring PWV, AIx and RHI.
A systematic comparison of PWV, AIx and RHI was conducted to determine the inter-relationships between these parameters of vascular functionality. Outputs were obtained non-invasively using three instruments, the VP-1000 (VP), SphygmoCor (SC), and EndoPAT (EP), in 40 apparently healthy males and females.
Correlations were found between the brachial-ankle PWV and radial-ankle PWV (by VP and SC), and PWV (VP) with AIx (SC). The interchangeability of these outputs was demonstrated by the Bland Altman test, making it feasible to extrapolate cut-offs for radial-ankle PWV and AIx equivalent to brachial-ankle PWV that signify healthy vessels. In contrast, RHI showed no association with AIx, suggesting these endothelial and arterial parameters are functionally distinct.
It was concluded that it is possible to compare the vascular function outputs of different instruments and identify healthy from unhealthy vessels, even though the approaches for quantifying the underlying physiological processes may differ. In this way, non-invasive determination of arterial function could be a new paradigm for detecting existing early stage asymptomatic atherosclerotic disease in individuals using techniques that are amenable to the clinical setting.
能够检测早期血管疾病的仪器的发展增加了人们对使用动脉僵硬(例如脉搏波速度(PWV)、增强指数(AIx))和内皮功能障碍(例如反应性充血指数(RHI))来诊断心血管事件发生前动脉粥样硬化疾病的兴趣。然而,在为此目的设计的设备中,对于这些参数中的每一个都没有足够的信息来确定适当的截止值来区分健康和不健康的血管。为了解决这些限制,本研究旨在通过比较能够测量 PWV、AIx 和 RHI 的不同仪器的输出,确定健康人群中动脉僵硬和内皮功能的上限阈值。
系统比较了 PWV、AIx 和 RHI,以确定这些血管功能参数之间的相互关系。使用三种仪器(VP-1000(VP)、SphygmoCor(SC)和 EndoPAT(EP))非侵入性地获得输出,在 40 名显然健康的男性和女性中进行。
发现桡踝 PWV 与肱踝 PWV(由 VP 和 SC)之间存在相关性,并且 VP 的 PWV 与 SC 的 AIx 之间存在相关性。Bland Altman 测试证明了这些输出的可互换性,使得能够推断出相当于健康血管的桡踝 PWV 和 AIx 的截止值。相比之下,RHI 与 AIx 之间没有关联,表明这些内皮和动脉参数在功能上是不同的。
可以比较不同仪器的血管功能输出,并确定健康和不健康的血管,即使用于量化潜在生理过程的方法可能不同。通过这种方式,使用易于临床环境的技术,非侵入性地确定动脉功能可能成为检测个体中现有早期无症状动脉粥样硬化疾病的新范例。