• Title of article

    A finite element model for analyzing shear wave propagation observed in magnetic resonance elastography

  • Author/Authors

    Qingshan Chen، نويسنده , , Stacie I. Ringleb، نويسنده , , Armando Manduca، نويسنده , , Richard L. Ehman، نويسنده , , Anat Kainan، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2005
  • Pages
    6
  • From page
    2198
  • To page
    2203
  • Abstract
    Magnetic resonance elastography (MRE) is a novel non-invasive approach to determine material stiffness by using a conventional magnetic resonance imaging (MRI) system incorporated with an oscillating motion-sensitizing gradient to detect nodal displacements produced by a shear excitation wave. The effects of material properties, excitation frequency, boundary conditions, and applied tension on shear wavelength measurement must be examined before MRE can become a useful diagnostic tool. We propose finite element (FE) modeling as a robust method to systematically study the effects of these parameters. An axisymmetric FE model was generated with ABAQUS to simulate agarose gel phantoms. The effects of material stiffness, density, and excitation frequency on propagating shear wavelength were examined individually. The effect of the boundary conditions on shear wavelength was also demonstrated. Results of shear wavelength from MRE measurement were compared with the results of FE model, which showed good agreement between the methods.
  • Keywords
    Magnetic resonance elastography , Shear wave propagation , Finite element modeling
  • Journal title
    Journal of Biomechanics
  • Serial Year
    2005
  • Journal title
    Journal of Biomechanics
  • Record number

    452177