Combined estimation of thickness and velocities using ultrasound guided waves: a pioneering study on in vitro cortical bone samples

This paper reports for the first time on inverse estimation of several bone properties from guided-wave measurements in human bone samples. Previously, related approaches have focused on ultrasonic estimation of a single bone property at a time. The method is based on two steps: the multi-Lamb mode...

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Veröffentlicht in:	IEEE transactions on ultrasonics, ferroelectrics, and frequency control ferroelectrics, and frequency control, 2014-09, Vol.61 (9), p.1478-1488
Hauptverfasser:	Foiret, Josquin, Minonzio, Jean-Gabriel, Chappard, Christine, Talmant, Maryline, Laugier, Pascal
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Sprache:	eng
Schlagworte:	Bioengineering Bone and Bones - diagnostic imaging Bones Data processing Electron tubes Estimation Ferroelectric materials Human Humans Image Processing, Computer-Assisted - methods Life Sciences Materials Phantoms, Imaging Probes Repeatability Reproducibility Reproducibility of Results Thickness measurement Tomography Ultrasonic variables measurement Ultrasonography - methods Ultrasound
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container_title	IEEE transactions on ultrasonics, ferroelectrics, and frequency control
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creator	Foiret, Josquin Minonzio, Jean-Gabriel Chappard, Christine Talmant, Maryline Laugier, Pascal
description	This paper reports for the first time on inverse estimation of several bone properties from guided-wave measurements in human bone samples. Previously, related approaches have focused on ultrasonic estimation of a single bone property at a time. The method is based on two steps: the multi-Lamb mode response is analyzed using the singular value decomposition signal processing method recently introduced in the field, then an identification procedure is run to find thickness and anisotropic elastic properties of the considered specimen. Prior to the measurements on bone, the method is validated on cortical bone-mimicking phantoms. The repeatability and the trueness of the estimated parameters on bone-mimicking phantoms were found around a few percent. Estimation of cortical thickness on bone samples was in good agreement with cortical thickness derived from high-resolution peripheral quantitative computed tomography data analysis of the samples.
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Previously, related approaches have focused on ultrasonic estimation of a single bone property at a time. The method is based on two steps: the multi-Lamb mode response is analyzed using the singular value decomposition signal processing method recently introduced in the field, then an identification procedure is run to find thickness and anisotropic elastic properties of the considered specimen. Prior to the measurements on bone, the method is validated on cortical bone-mimicking phantoms. The repeatability and the trueness of the estimated parameters on bone-mimicking phantoms were found around a few percent. 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subjects	Bioengineering Bone and Bones - diagnostic imaging Bones Data processing Electron tubes Estimation Ferroelectric materials Human Humans Image Processing, Computer-Assisted - methods Life Sciences Materials Phantoms, Imaging Probes Repeatability Reproducibility Reproducibility of Results Thickness measurement Tomography Ultrasonic variables measurement Ultrasonography - methods Ultrasound
title	Combined estimation of thickness and velocities using ultrasound guided waves: a pioneering study on in vitro cortical bone samples
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