Title :
An anisotropic bilayer model to gain insight into in-vivo guided wave measurements
Author :
Bochud, Nicolas ; Minonzio, Jean-Gabriel ; Vallet, Quentin ; Laugier, Pascal
Author_Institution :
Lab. d´Imagerie Biomed., UPMC Univ. Paris 06, Paris, France
Abstract :
The influence of soft-tissue on guided wave measurements for the assessment of cortical bone properties is not fully understood yet. To improve our understanding of the soft-tissue influence on the guided modes propagation characteristics, a series of assemblies of soft tissue- and bone-mimicking phantoms were ultrasonically investigated using the so-called axial transmission technique. For this purpose, an anisotropic bilayer model was developed and inserted in a model-based inverse problem procedure to infer the properties of both the solid and fluid layers. Finally, the potential of this modeling is evaluated on a few in-vivo measurements at the forearm.
Keywords :
biomechanics; biomedical ultrasonics; bone; inverse problems; phantoms; physiological models; ultrasonic propagation; anisotropic bilayer model; axial transmission technique; bone-mimicking phantoms; cortical bone properties; fluid layers; forearm; guided mode propagation characteristics; in-vivo guided wave measurements; in-vivo measurements; model-based inverse problem procedure; soft tissue-mimicking phantoms; soft-tissue influence; solid layers; Fluids; Physiology;
Conference_Titel :
Ultrasonic Characterization of Bone (ESUCB), 2015 6th European Symposium on
Conference_Location :
Corfu
DOI :
10.1109/ESUCB.2015.7169886
