International Journal of Biomedical Imaging (Jan 2007)

Model-Based Reconstructive Elasticity Imaging Using Ultrasound

  • Salavat R. Aglyamov,
  • Andrei R. Skovoroda,
  • Hua Xie,
  • Kang Kim,
  • Jonathan M. Rubin,
  • Matthew O'Donnell,
  • Thomas W. Wakefield,
  • Daniel Myers,
  • Stanislav Y. Emelianov

DOI
https://doi.org/10.1155/2007/35830
Journal volume & issue
Vol. 2007

Abstract

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Elasticity imaging is a reconstructive imaging technique where tissue motion in response to mechanical excitation is measured using modern imaging systems, and the estimated displacements are then used to reconstruct the spatial distribution of Young's modulus. Here we present an ultrasound elasticity imaging method that utilizes the model-based technique for Young's modulus reconstruction. Based on the geometry of the imaged object, only one axial component of the strain tensor is used. The numerical implementation of the method is highly efficient because the reconstruction is based on an analytic solution of the forward elastic problem. The model-based approach is illustrated using two potential clinical applications: differentiation of liver hemangioma and staging of deep venous thrombosis. Overall, these studies demonstrate that model-based reconstructive elasticity imaging can be used in applications where the geometry of the object and the surrounding tissue is somewhat known and certain assumptions about the pathology can be made.