International audienceUsing shear wave elastography, we measure the changes in the wave speed with the stress produced by a striated muscle during isometric voluntary contraction. To isolate the behaviour of an individual muscle from complementary or antagonistic actions of adjacent muscles, we select the flexor digiti minimi muscle, whose sole function is to extend the little finger. To link the wave speed to the stiffness, we develop an acoustoelastic theory for shear waves in homogeneous, transversely isotropic, incompressible solids subject to an uniaxial stress. We then provide measurements of the apparent shear elastic modulus along, and transversely to, the fibre axis for six healthy human volunteers of different age and sex. The res...
Ultrasound shear wave elastography is becoming a valuable tool for measuring mechanical properties o...
Through the past few years, ultrasound (US) elastography has been widely applied to quantify muscle ...
International audienceRecently a nonlinear equation describing the plane shear wave propagation in i...
International audienceUsing shear wave elastography, we measure the changes in the wave speed with t...
International audienceRecent developments in the field of elastography aim at developing the quantif...
To improve muscle pathology diagnosis or muscle characterization, nonlinear (NL) elasticity assessme...
Shear wave elastography imaging (SWEI) of skeletal muscle has previously been used to identify speed...
Using a 3D rotational shear wave elasticity imaging (SWEI) setup, 3D shear wave data were acquired i...
Shear wave elastography (SWE) has enhanced our ability to non-invasively make in vivo measurements o...
Shear wave elastography is a new noninvasive tool for the analysis of the biomechanical properties o...
Quantifying the local stiffness of muscular tissue can be a useful tool for the improvement of diagn...
International audienceThe assessment of viscoelastic properties of soft tissues is enjoying a growin...
ABSTRACT: A stand-alone ultrasound shear wave imaging technology has been developed to quantify and ...
International audienceMuscle stiffness estimated using shear wave elastography can provide an index ...
Ultrasound shear wave elastography is becoming a valuable tool for measuring mechanical properties o...
Through the past few years, ultrasound (US) elastography has been widely applied to quantify muscle ...
International audienceRecently a nonlinear equation describing the plane shear wave propagation in i...
International audienceUsing shear wave elastography, we measure the changes in the wave speed with t...
International audienceRecent developments in the field of elastography aim at developing the quantif...
To improve muscle pathology diagnosis or muscle characterization, nonlinear (NL) elasticity assessme...
Shear wave elastography imaging (SWEI) of skeletal muscle has previously been used to identify speed...
Using a 3D rotational shear wave elasticity imaging (SWEI) setup, 3D shear wave data were acquired i...
Shear wave elastography (SWE) has enhanced our ability to non-invasively make in vivo measurements o...
Shear wave elastography is a new noninvasive tool for the analysis of the biomechanical properties o...
Quantifying the local stiffness of muscular tissue can be a useful tool for the improvement of diagn...
International audienceThe assessment of viscoelastic properties of soft tissues is enjoying a growin...
ABSTRACT: A stand-alone ultrasound shear wave imaging technology has been developed to quantify and ...
International audienceMuscle stiffness estimated using shear wave elastography can provide an index ...
Ultrasound shear wave elastography is becoming a valuable tool for measuring mechanical properties o...
Through the past few years, ultrasound (US) elastography has been widely applied to quantify muscle ...
International audienceRecently a nonlinear equation describing the plane shear wave propagation in i...