MatNLI: An open-source MATLAB-based solver for the non-linear inversion in elastography

Elastography has emerged as one of the most promising non-invasive clinical tools. In elastography, a stiffness map or elastogram is generated by solving an inverse problem of elasticity utilizing the tissue motion data acquired using magnetic resonance imaging or ultrasound. Among various inverse a...

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Published inAdvances in engineering software (1992) Vol. 181; p. 103476
Main Authors Awasthi, Abhilash, Dinachandra, Moirangthem, Mahajan, Puneet, Suri, Ashish, Roy, Sitikantha
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2023
Subjects
Adjoint methods
Elasticity imaging
Elastography
Inverse elasticity
Non-invasive clinical diagnosis
Elasticity imaging
Non-invasive clinical diagnosis
Adjoint methods
Elastography
Inverse elasticity
Online AccessGet full text
ISSN0965-9978
DOI10.1016/j.advengsoft.2023.103476

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Abstract Elastography has emerged as one of the most promising non-invasive clinical tools. In elastography, a stiffness map or elastogram is generated by solving an inverse problem of elasticity utilizing the tissue motion data acquired using magnetic resonance imaging or ultrasound. Among various inverse algorithms devoted to elastography, non-linear inversion coupled with the finite element method has demonstrated excellent applicability in extracting complex physics of the tissue. The development and implementation of such an inverse algorithm are challenging and often unavailable to clinicians. In the present work, we offer an open-source parallel MATLAB implementation of an efficient non-linear inversion algorithm based on the finite element method for different isotropic material models, viz., linear elastic and viscoelastic materials in the regime of compressible and nearly incompressible materials. Additionally, the framework has been extended to account for anisotropy by assuming transversely isotropic material. For the optimization module, the gradient of the objective function to the model parameters has been computed using the Adjoint method. Different case studies involving smooth variations and piece-wise discontinuities in the material property distribution are explored, and the efficacy of the inversion algorithm in reconstructing the stiffness map is discussed. In addition, noise is added to the synthetic data to depict a realistic setup, i.e., to prevent inverse crimes, and enhance the numerical stability and robustness of the current implementation. The present framework with general-purpose computer implementation could be beneficial for academic and clinical uses and may aid researchers in strengthening their existing frameworks and developing new algorithmic ideas. •An open-source framework for the Non-linear Inversion used in elastography is presented.•The framework has been successfully implemented with numerous examples considering isotropic and anisotropic material models.•A computationally efficient adjoint method of gradient calculation has been employed to reduce the computational cost.•The algorithm utilizes only Dirichlet boundary conditions, making it suitable for other elastography-based applications.•An efficient MATLAB-based parallel implementation is provided for the further development of the framework.
AbstractList Elastography has emerged as one of the most promising non-invasive clinical tools. In elastography, a stiffness map or elastogram is generated by solving an inverse problem of elasticity utilizing the tissue motion data acquired using magnetic resonance imaging or ultrasound. Among various inverse algorithms devoted to elastography, non-linear inversion coupled with the finite element method has demonstrated excellent applicability in extracting complex physics of the tissue. The development and implementation of such an inverse algorithm are challenging and often unavailable to clinicians. In the present work, we offer an open-source parallel MATLAB implementation of an efficient non-linear inversion algorithm based on the finite element method for different isotropic material models, viz., linear elastic and viscoelastic materials in the regime of compressible and nearly incompressible materials. Additionally, the framework has been extended to account for anisotropy by assuming transversely isotropic material. For the optimization module, the gradient of the objective function to the model parameters has been computed using the Adjoint method. Different case studies involving smooth variations and piece-wise discontinuities in the material property distribution are explored, and the efficacy of the inversion algorithm in reconstructing the stiffness map is discussed. In addition, noise is added to the synthetic data to depict a realistic setup, i.e., to prevent inverse crimes, and enhance the numerical stability and robustness of the current implementation. The present framework with general-purpose computer implementation could be beneficial for academic and clinical uses and may aid researchers in strengthening their existing frameworks and developing new algorithmic ideas. •An open-source framework for the Non-linear Inversion used in elastography is presented.•The framework has been successfully implemented with numerous examples considering isotropic and anisotropic material models.•A computationally efficient adjoint method of gradient calculation has been employed to reduce the computational cost.•The algorithm utilizes only Dirichlet boundary conditions, making it suitable for other elastography-based applications.•An efficient MATLAB-based parallel implementation is provided for the further development of the framework.
ArticleNumber 103476
Author Dinachandra, Moirangthem
Roy, Sitikantha
Mahajan, Puneet
Suri, Ashish
Awasthi, Abhilash
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  email: sroy@am.iitd.ac.in
  organization: Department of Applied Mechanics, Indian Institute of Technology Delhi, New Delhi, 110016, India
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Keywords Elasticity imaging
Non-invasive clinical diagnosis
Adjoint methods
Elastography
Inverse elasticity
Language English
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Snippet Elastography has emerged as one of the most promising non-invasive clinical tools. In elastography, a stiffness map or elastogram is generated by solving an...
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StartPage 103476
SubjectTerms Adjoint methods
Elasticity imaging
Elastography
Inverse elasticity
Non-invasive clinical diagnosis
Title MatNLI: An open-source MATLAB-based solver for the non-linear inversion in elastography
URI https://dx.doi.org/10.1016/j.advengsoft.2023.103476
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