Estimation of material parameters from slow and fast shear waves in an incompressible, transversely isotropic material

This paper describes a method to estimate mechanical properties of soft, anisotropic materials from measurements of shear waves with specific polarization and propagation directions. This method is applicable to data from magnetic resonance elastography (MRE), which is a method for measuring shear w...

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Published in	Journal of biomechanics Vol. 48; no. 15; pp. 4002 - 4009
Main Authors	Tweten, Dennis J., Okamoto, Ruth J., Schmidt, John L., Garbow, Joel R., Bayly, Philip V.
Format	Journal Article
Language	English
Published	United States Elsevier Ltd 26.11.2015 Elsevier Limited
Subjects	Accuracy Anisotropy Elasticity Imaging Techniques Estimates Filtering Finite Element Analysis Finite element method Humans Inversion algorithms Mathematical analysis Mathematical models Models, Theoretical MR elastography Physical Medicine and Rehabilitation Reproducibility of Results Shear Shear waves Sound waves Studies Transversely isotropic material Viscoelasticity Wave propagation Shear waves MR elastography Inversion algorithms Anisotropy Transversely isotropic material
Online Access	Get full text
ISSN	0021-9290 1873-2380 1873-2380
DOI	10.1016/j.jbiomech.2015.09.009

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Abstract	This paper describes a method to estimate mechanical properties of soft, anisotropic materials from measurements of shear waves with specific polarization and propagation directions. This method is applicable to data from magnetic resonance elastography (MRE), which is a method for measuring shear waves in live subjects or in vitro samples. Here, we simulate MRE data using finite element analysis. A nearly incompressible, transversely isotropic (ITI) material model with three parameters (shear modulus, shear anisotropy, and tensile anisotropy) is used, which is appropriate for many fibrous, biological tissues. Both slow and fast shear waves travel concurrently through such a material with speeds that depend on the propagation direction relative to fiber orientation. A three-parameter estimation approach based on directional filtering and isolation of slow and fast shear wave components (directional filter inversion, or DFI) is introduced. Wave speeds of each isolated shear wave component are estimated using local frequency estimation (LFE), and material properties are calculated using weighted least squares. Data from multiple finite element simulations are used to assess the accuracy and reliability of DFI for estimation of anisotropic material parameters.
AbstractList	This paper describes a method to estimate mechanical properties of soft, anisotropic materials from measurements of shear waves with specific polarization and propagation directions. This method is applicable to data from magnetic resonance elastography (MRE), which is a method for measuring shear waves in live subjects or in vitro samples. Here, we simulate MRE data using finite element analysis. A nearly incompressible, transversely isotropic (ITI) material model with three parameters (shear modulus, shear anisotropy, and tensile anisotropy) is used, which is appropriate for many fibrous, biological tissues. Both slow and fast shear waves travel concurrently through such a material with speeds that depend on the propagation direction relative to fiber orientation. A three-parameter estimation approach based on directional filtering and isolation of slow and fast shear wave components (directional filter inversion, or DFI) is introduced. Wave speeds of each isolated shear wave component are estimated using local frequency estimation (LFE), and material properties are calculated using weighted least squares. Data from multiple finite element simulations are used to assess the accuracy and reliability of DFI for estimation of anisotropic material parameters. This paper describes a method to estimate mechanical properties of soft, anisotropic materials from measurements of shear waves with specific polarization and propagation directions. This method is applicable to data from magnetic resonance elastography (MRE), which is a method for measuring shear waves in live subjects or in vitro samples. Here, we simulate MRE data using finite element analysis. A nearly incompressible, transversely isotropic (ITI) material model with three parameters (shear modulus, shear anisotropy, and tensile anisotropy) is used, which is appropriate for many fibrous, biological tissues. Both slow and fast shear waves travel concurrently through such a material with speeds that depend on the propagation direction relative to fiber orientation. A three-parameter estimation approach based on directional filtering and isolation of slow and fast shear wave components (directional filter inversion, or DFI) is introduced. Wave speeds of each isolated shear wave component are estimated using local frequency estimation (LFE), and material properties are calculated using weighted least squares. Data from multiple finite element simulations are used to assess the accuracy and reliability of DFI for estimation of anisotropic material parameters.This paper describes a method to estimate mechanical properties of soft, anisotropic materials from measurements of shear waves with specific polarization and propagation directions. This method is applicable to data from magnetic resonance elastography (MRE), which is a method for measuring shear waves in live subjects or in vitro samples. Here, we simulate MRE data using finite element analysis. A nearly incompressible, transversely isotropic (ITI) material model with three parameters (shear modulus, shear anisotropy, and tensile anisotropy) is used, which is appropriate for many fibrous, biological tissues. Both slow and fast shear waves travel concurrently through such a material with speeds that depend on the propagation direction relative to fiber orientation. A three-parameter estimation approach based on directional filtering and isolation of slow and fast shear wave components (directional filter inversion, or DFI) is introduced. Wave speeds of each isolated shear wave component are estimated using local frequency estimation (LFE), and material properties are calculated using weighted least squares. Data from multiple finite element simulations are used to assess the accuracy and reliability of DFI for estimation of anisotropic material parameters. Abstract This paper describes a method to estimate mechanical properties of soft, anisotropic materials from measurements of shear waves with specific polarization and propagation directions. This method is applicable to data from magnetic resonance elastography (MRE), which is a method for measuring shear waves in live subjects or in vitro samples. Here, we simulate MRE data using finite element analysis. A nearly incompressible, transversely isotropic (ITI) material model with three parameters (shear modulus, shear anisotropy, and tensile anisotropy) is used, which is appropriate for many fibrous, biological tissues. Both slow and fast shear waves travel concurrently through such a material with speeds that depend on the propagation direction relative to fiber orientation. A three-parameter estimation approach based on directional filtering and isolation of slow and fast shear wave components (directional filter inversion, or DFI) is introduced. Wave speeds of each isolated shear wave component are estimated using local frequency estimation (LFE), and material properties are calculated using weighted least squares. Data from multiple finite element simulations are used to assess the accuracy and reliability of DFI for estimation of anisotropic material parameters.
Author	Schmidt, John L. Garbow, Joel R. Tweten, Dennis J. Okamoto, Ruth J. Bayly, Philip V.
AuthorAffiliation	a Department of Mechanical Engineering and Materials Science, Washington University, St. Louis, MO, USA b Department of Radiology, Washington University, St. Louis, MO, USA c Department of Biomedical Engineering, Washington University, St. Louis, MO, USA
AuthorAffiliation_xml	– name: c Department of Biomedical Engineering, Washington University, St. Louis, MO, USA – name: b Department of Radiology, Washington University, St. Louis, MO, USA – name: a Department of Mechanical Engineering and Materials Science, Washington University, St. Louis, MO, USA
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Snippet	This paper describes a method to estimate mechanical properties of soft, anisotropic materials from measurements of shear waves with specific polarization and... Abstract This paper describes a method to estimate mechanical properties of soft, anisotropic materials from measurements of shear waves with specific...
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SubjectTerms	Accuracy Anisotropy Elasticity Imaging Techniques Estimates Filtering Finite Element Analysis Finite element method Humans Inversion algorithms Mathematical analysis Mathematical models Models, Theoretical MR elastography Physical Medicine and Rehabilitation Reproducibility of Results Shear Shear waves Sound waves Studies Transversely isotropic material Viscoelasticity Wave propagation
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Title	Estimation of material parameters from slow and fast shear waves in an incompressible, transversely isotropic material
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