학술논문
Shear wave elastography: modeling of the shear wave propagation in heterogeneous tissue by pseudospectral method
Document Type
Conference
Author
Source
IEEE Ultrasonics Symposium, 2004 Ultrasonics Symposium Ultrasonics Symposium, 2004 IEEE. 1:24-27 Vol.1 2004
Subject
Language
ISSN
1051-0117
Abstract
Shear wave elastography is a promising approach to characterize mechanical properties of soft tissue. By using radiation pressure, it is possible to create deeply localized stress in biological tissue which generates shear waves. We have developed a numerical technique, based on a pseudospectral (PS) method, which solves the wave equation with a source term in an isotropic solid. Perfectly matched layers (PML) are used on the boundaries of the numerical grid to avoid reflections. Moreover, the temporal evolution is done with an Adams-Bashforth method. In the case of a point source in a homogeneous elastic medium, numerical results are favorably compared (directivity patterns, displacement shape, ...) with analytical results computed with the elastodynamic Green's function. The shear wave propagation has then been simulated in a 2D plane comprising a small inclusion with a shear elasticity coefficient different from the surrounding tissue. The shear wavefront deformation, as well as the diffraction and reflection of the shear wave, can be calculated and analyzed.