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Main Authors: Jiang, Yuxuan, Li, Guo-Yang, Hu, Keshuai, Ma, Shiyu, Zheng, Yang, Jiang, Mingwei, Zhang, Zhaoyi, Wang, Xinyu, Cao, Yanping
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.20288
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author Jiang, Yuxuan
Li, Guo-Yang
Hu, Keshuai
Ma, Shiyu
Zheng, Yang
Jiang, Mingwei
Zhang, Zhaoyi
Wang, Xinyu
Cao, Yanping
author_facet Jiang, Yuxuan
Li, Guo-Yang
Hu, Keshuai
Ma, Shiyu
Zheng, Yang
Jiang, Mingwei
Zhang, Zhaoyi
Wang, Xinyu
Cao, Yanping
contents Arterial biomechanical indicators have long been recognized as fundamental contributors to the physiology and pathology of cardiovascular systems. Probing the multiple biomechanical parameters of arteries simultaneously at different time points within one cardiac cycle is of great importance but remains challenging. Here we report an ultrasound elastography method to quantify arterial anisotropic stiffness, mechanical stresses in arterial wall, and local blood pressure in a single measurement. With programmed acoustic radiation force, arterial axial and circumferential guided elastic waves were induced simultaneously and recorded at multiple time points within one cardiac cycle. Then a mechanical model incorporating acoustoelasticity and viscoelasticity of arteries was proposed to quantitatively predict the correlation of arterial guided elastic waves with arterial biomechanical parameters. Our experimental design and biomechanical model lead to an elastography method to interrogate the variation of blood pressure, arterial bidirectional stiffnesses and mechanical stresses in arterial walls with time. In vivo experiments were performed on healthy young, normotensive older and hypertensive older volunteers. The results demonstrate that the reported method can find applications in understanding aging of cardiovascular system and diagnosis of cardiovascular diseases.
format Preprint
id arxiv_https___arxiv_org_abs_2412_20288
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Simultaneous imaging of bidirectional guided waves enables synchronous probing of mechanical anisotropy, local blood pressure, and stress in arteries
Jiang, Yuxuan
Li, Guo-Yang
Hu, Keshuai
Ma, Shiyu
Zheng, Yang
Jiang, Mingwei
Zhang, Zhaoyi
Wang, Xinyu
Cao, Yanping
Medical Physics
Applied Physics
Arterial biomechanical indicators have long been recognized as fundamental contributors to the physiology and pathology of cardiovascular systems. Probing the multiple biomechanical parameters of arteries simultaneously at different time points within one cardiac cycle is of great importance but remains challenging. Here we report an ultrasound elastography method to quantify arterial anisotropic stiffness, mechanical stresses in arterial wall, and local blood pressure in a single measurement. With programmed acoustic radiation force, arterial axial and circumferential guided elastic waves were induced simultaneously and recorded at multiple time points within one cardiac cycle. Then a mechanical model incorporating acoustoelasticity and viscoelasticity of arteries was proposed to quantitatively predict the correlation of arterial guided elastic waves with arterial biomechanical parameters. Our experimental design and biomechanical model lead to an elastography method to interrogate the variation of blood pressure, arterial bidirectional stiffnesses and mechanical stresses in arterial walls with time. In vivo experiments were performed on healthy young, normotensive older and hypertensive older volunteers. The results demonstrate that the reported method can find applications in understanding aging of cardiovascular system and diagnosis of cardiovascular diseases.
title Simultaneous imaging of bidirectional guided waves enables synchronous probing of mechanical anisotropy, local blood pressure, and stress in arteries
topic Medical Physics
Applied Physics
url https://arxiv.org/abs/2412.20288