Acceleration Plethysmography for Ambulatory Vascular Monitoring: A Pilot Study

2023 IEEE International Symposium on Medical Measurements and Applications (MeMeA) Pub Date : 2023-06-14 DOI:10.1109/MeMeA57477.2023.10171877

V. Girish, V. Raj Kiran, P. Nabeel, M. Sivaprakasam, J. Joseph

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Abstract

As frequent monitoring of vascular ageing is gaining importance and the lack of a wearable sensing technology to track it through changes in vascular stiffness, we have developed a wearable accelerometric device. It could capture changes in vascular stiffness using our empirically derived markers from the amplitude features of acceleration plethysmogram (APG) at the carotid artery site. An in-vivo study on 12 subjects was conducted to (a) identify a few amplitude-based markers from the APG that exhibit significant change to physiologically induced hemodynamic perturbation; and (b) compare the magnitude of response of these APG-derived markers with that of carotid local stiffness metrics (β, Ep, and AC) measured using a clinically validated device, ARTSENS® Pen. The APG signals were reliable (SNR > 38 dB) and the amplitude features of APG were repeatable (CoV < 10 %). By examining all the APG-derived markers that showed statistically significant differences (p < 0.05) between pre and post-exercise measurements, it was found that the markers (ab)*(a-c) and (a*b) were having a high magnitude of response among others. The response (expressed as a percentage difference in mean values between pre and post-measurements) of the APG-derived markers, (a-b)*(a-c) and (a*b) were 42.41 % and 40.55 %, respectively, which were comparable to the response of carotid local stiffness metrics, β (32.34 %) and AC (41.83 %). The results suggest the potential of APG-derived markers, (a*b) and (a-b)*(a-c) for tracking stiffness changes, and the pilot study demonstrated the ability of the device to capture stiffness changes for ambulatory monitoring purposes.

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用于动态血管监测的加速容积描记术:一项初步研究

由于血管老化的频繁监测越来越重要，并且缺乏可穿戴传感技术来通过血管刚度的变化来跟踪血管老化，我们开发了一种可穿戴的加速度测量设备。它可以利用我们从颈动脉加速容积图(APG)的振幅特征中得出的经验性标记物来捕捉血管刚度的变化。对12名受试者进行了体内研究，以(a)从APG中确定一些基于振幅的标记物，这些标记物表现出生理诱导的血流动力学扰动的显著变化;(b)比较这些apg衍生标志物与使用临床验证设备ARTSENS®Pen测量的颈动脉局部刚度指标(β， Ep和AC)的反应幅度。APG信号可靠(信噪比> 38 dB)，振幅特征可重复(CoV < 10%)。通过对运动前后apg衍生标记物的检测，发现运动前后标记物(ab)*(a-c)和(a*b)具有较高的反应幅度。apg衍生标记物(a-b)*(a-c)和(a*b)的响应(以测量前后平均值的百分比差异表示)分别为42.41%和40.55%，与颈动脉局部刚度指标β(32.34%)和AC(41.83%)的响应相当。结果表明，apg衍生的标记物(a*b)和(a-b)*(a-c)具有跟踪刚度变化的潜力，并且初步研究证明了该设备能够捕获用于动态监测目的的刚度变化。

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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2023 IEEE International Symposium on Medical Measurements and Applications (MeMeA)

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