Non-invasive pulse arrival time as a surrogate for oscillometric systolic blood pressure changes during non-pharmacological intervention.

IF 2.3 4区 医学 Q3 BIOPHYSICS
Bernhard Hametner, Severin Maurer, Alina Sehnert, Martin Bachler, Stefan Orter, Olivia Zechner, Markus Müllner-Rieder, Michael Penkler, Siegfried Wassertheurer, Walter Sehnert, Thomas Mengden, Christopher C Mayer
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引用次数: 0

Abstract

Background.Non-invasive continuous blood pressure (BP) monitoring is of longstanding interest in various cardiovascular scenarios. In this context, pulse arrival time (PAT), i.e., a surrogate parameter for systolic BP (change), became very popular recently, especially in the context of cuffless BP measurement and dedicated lifestyle interventions. Nevertheless, there is also understandable doubt on its reliability in uncontrolled and mobile settings.Objective.The aim of this work is therefore the investigation whether PAT follows oscillometric systolic BP readings during moderate interventions by physical or mental activity using a medical grade handheld device for non-invasive PAT assessment.Approach.A study was conducted featuring an experimental group performing a physical and a mental task, and a control group. Oscillometric BP and PAT were assessed at baseline and after each intervention. Interventions were selected randomly but then performed sequentially in a counterbalanced order. Multivariate analyses of variance were used to test within-subject and between-subject effects for the dependent variables, followed by univariate analyses for post-hoc testing. Furthermore, correlation analysis was performed to assess the association of intervention effects between BP and PAT.Mainresults.The study included 51 subjects (31 females). Multivariate analysis of variances showed that effects in BP, heart rate, PAT and pulse wave parameters were consistent and significantly different between experimental and control groups. After physical activity, heart rate and systolic BP increased significantly whereas PAT decreased significantly. Mental activity leads to a decrease in systolic BP at stable heart rate. Pulse wave parameters follow accordingly by an increase of PAT and mainly unchanged pulse wave analysis features due to constant heart rate. Finally, also the control group behaviour was accurately registered by the PAT method compared to oscillometric cuff. Correlation analyses revealed significant negative associations between changes of systolic BP and changes of PAT from baseline to the physical task (-0.33 [-0.63, 0.01],p< 0.048), and from physical to mental task (-0.51 [-0.77, -0.14],p= 0.001), but not for baseline to mental task (-0.12 [-0,43,0,20],p= 0.50) in the experimental group.Significance.PAT and the used digital, handheld device proved to register changes in BP and heart rate reliably compared to oscillometric measurements during intervention. Therefore, it might add benefit to future mobile health solutions to support BP management by tracking relative, not absolute, BP changes during non-pharmacological interventions.

将无创脉搏到达时间作为非药物干预期间示波收缩压变化的替代指标。
背景:无创连续血压监测在各种心血管疾病中长期受到关注。在这种情况下,脉搏到达时间(PAT),即收缩压(变化)的替代参数,最近变得非常流行,特别是在无袖带血压测量和专门的生活方式干预方面。尽管如此,人们对其在不受控制的移动环境中的可靠性仍存有疑虑,这是可以理解的:因此,这项工作的目的是研究在使用医疗级手持设备进行无创 PAT 评估的体力或脑力活动的适度干预期间,PAT 是否会跟随示波收缩压读数:实验组和对照组分别进行体力和脑力活动。分别在基线和每次干预后对摆动血压和脉搏波速度进行评估。干预措施是随机选择的,但随后按平衡顺序依次进行。使用多变量方差分析来检验因变量的受试者内效应和受试者间效应,然后使用单变量分析进行事后检验。此外,还进行了相关分析,以评估干预效果与血压和 PAT 之间的关联:研究包括 51 名受试者(31 名女性)。多变量方差分析显示,实验组和对照组的血压、心率、脉搏波和脉搏波参数的效果一致,且有显著差异。体力活动后,心率和收缩压明显上升,而脉搏波参数则明显下降。在心率稳定的情况下,心理活动会导致收缩压下降。脉搏波参数也随之增加,PAT 增加,而脉搏波分析特征因心率恒定而主要保持不变。最后,与示波袖带测量法相比,PAT 法也能准确记录对照组的行为。相关性分析表明,从基线到体能任务期间,收缩压的变化与 PAT 的变化之间存在显著的负相关(-0.33 [-0.63, 0.01], p
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来源期刊
Physiological measurement
Physiological measurement 生物-工程:生物医学
CiteScore
5.50
自引率
9.40%
发文量
124
审稿时长
3 months
期刊介绍: Physiological Measurement publishes papers about the quantitative assessment and visualization of physiological function in clinical research and practice, with an emphasis on the development of new methods of measurement and their validation. Papers are published on topics including: applied physiology in illness and health electrical bioimpedance, optical and acoustic measurement techniques advanced methods of time series and other data analysis biomedical and clinical engineering in-patient and ambulatory monitoring point-of-care technologies novel clinical measurements of cardiovascular, neurological, and musculoskeletal systems. measurements in molecular, cellular and organ physiology and electrophysiology physiological modeling and simulation novel biomedical sensors, instruments, devices and systems measurement standards and guidelines.
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