A simulation based approach for shear wave attenuation quantification in transverse isotropic tissues: preliminary results
Resumen:
Shear wave attenuation should be corrected by diffraction effects induced by the shear wave source when estimating mechanical properties of tissue. In this work we address this problem to provide a full mechanical characterization of transverse isotropic tissue. To this end, experimental measurements were combined with numerical simulations. Simulation was conducted under the assumption of a purely elastic TIT. Under these conditions the SWA can be attributed completely to diffraction effects. Results of the simulation were used to correct experimental measurements. The validity of this approach was tested numerically and experimentally showing good results. Applications in sports medicine are envisaged.
2022 | |
ANII: FMV_1_2019_1_155527 | |
Diffraction correction Shear wave attenuation Transverse isotropic tissue |
|
Inglés | |
Universidad de la República | |
COLIBRI | |
https://hdl.handle.net/20.500.12008/41536 | |
Acceso abierto | |
Licencia Creative Commons Atribución - No Comercial - Compartir Igual (CC - By-NC-SA 4.0) |
Resultados similares
-
A diffraction correction to quantify shear wave attenuation in transverse isotropic tissues: preliminary results
Autor(es):: Budelli, Eliana
Fecha de publicación:: (2021) -
Recent clinical applications of shear wave elastography in Uruguay
Autor(es):: Arruti, Agustín
Fecha de publicación:: (2021) -
Anisotropy in ultrasound shear wave elastography: an add-on to muscles characterization
Autor(es):: Ngo, Ha-Hien-Phuong
Fecha de publicación:: (2022) -
Shear wave elastography based on noise correlation and time reversal
Autor(es):: Brum, Javier
Fecha de publicación:: (2021) -
Quantification of in vivo muscle elastic anisotropy factor by steered push beams
Autor(es):: Ngo, Ha-Hien-Phuong
Fecha de publicación:: (2022)