Automated Compression Device for Viscoelasticity Imaging

作者:Nabavizadeh Alireza; Kinnick Randall R; Bayat Mahdi; Amador Carolina; Urban Matthew W; Alizad Azra; Fatemi Mostafa
来源:IEEE Transactions on Biomedical Engineering, 2017, 64(7): 1535-1546.
DOI:10.1109/TBME.2016.2612541

摘要

Noninvasive measurement of tissue viscoelastic properties is gaining more attention for screening and diagnostic purposes. Recently, measuring dynamic response of tissue under a constant force has been studied for estimation of tissue viscoelastic properties in terms of retardation times. The essential part of such a test is an instrument that is capable of creating a controlled axial force and is suitable for clinical applications. Such a device should be lightweight, portable, and easy to use for patient studies to capture tissue dynamics under external stress. In this paper, we present the design of an automated compression device for studying the creep response of materials with tissue-like behaviors. The device can be used to apply a ramp-and-hold force excitation for a predetermined duration of time and it houses an ultrasound probe for monitoring the creep response of the underlying tissue. To validate the performance of the device, several creep tests were performed on tissue-mimicking phantoms, and the results were compared against those from a commercial mechanical testing instrument. Using a second-order Kelvin-Voigt model and surface measurement of the forces and displacements, retardation times T-1 and T-2 were estimated from each test. These tests showed strong agreement between our automated compression device and the commercial mechanical testing system, with an average relative error of 2.9% and 12.4%, for T-1 and T-2, respectively. Also, we present the application of compression device to measure local retardation times for four different phantoms with different size and stiffness.

  • 出版日期2017-7