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Article Dans Une Revue Physics in Medicine and Biology Année : 2015

Modelling the impulse diffraction field of shear waves in transverse isotropic viscoelastic medium

Résumé

The generation of shear waves from an ultrasound focused beam has been developed as a major concept for remote palpation using shear wave elastography (SWE). For muscular diagnostic applications, characteristics of the shear wave profile will strongly depend on characteristics of the transducer as well as the orientation of muscular fibers and the tissue viscoelastic properties. The numerical simulation of shear waves generated from a specific probe in an anisotropic viscoelastic medium is a key issue for further developments of SWE in fibrous soft tissues. In this study we propose a complete numerical tool allowing 3D simulation of a shear wave front in anisotropic viscoelastic media. From the description of an ultrasonic transducer, the shear wave source is simulated by using Field's II software and shear wave propagation described by using the Green's formalism. Finally, the comparison between simulations and experiments are successively performed for both shear wave velocity and dispersion profile in a transverse isotropic hydrogel phantom, in vivo forearm muscle and in vivo biceps brachii.
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hal-02324714 , version 1 (25-06-2024)

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Simon Chatelin, Jean-Luc Gennisson, Miguel Bernal, Mickael Tanter, Mathieu Pernot. Modelling the impulse diffraction field of shear waves in transverse isotropic viscoelastic medium. Physics in Medicine and Biology, 2015, 60 (9), pp.3639-3654. ⟨10.1088/0031-9155/60/9/3639⟩. ⟨hal-02324714⟩
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