Ned C Rouze
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Explore the profile of Ned C Rouze including associated specialties, affiliations and a list of published articles.
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32
Citations
666
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Recent Articles
1.
Jin F, Rouze N, Nightingale K, Palmeri M
J Acoust Soc Am
. 2024 Dec;
156(6):3821-3837.
PMID: 39651907
The stress-strain relation in a transversely isotropic (TI) material is described by five independent parameters. In the incompressible limit, only three parameters are required to describe shear wave propagation. Existing...
2.
Paley C, Knight A, Jin F, Moavenzadeh S, Rouze N, Pietrosimone L, et al.
J Mech Behav Biomed Mater
. 2023 Dec;
150:106302.
PMID: 38160641
Skeletal muscle is a complex tissue, exhibiting not only direction-dependent material properties (commonly modeled as a transversely isotropic material), but also changes in observed material properties due to factors such...
3.
Paley C, Knight A, Jin F, Moavenzadeh S, Pietrosimone L, Hobson-Webb L, et al.
Ultrasound Med Biol
. 2022 Dec;
49(3):750-760.
PMID: 36543617
Shear wave elasticity imaging (SWEI) usually assumes an isotropic material; however, skeletal muscle is typically modeled as a transversely isotropic material with independent shear wave speeds in the directions along...
4.
Knight A, Jin F, Paley C, Rouze N, Moavenzadeh S, Pietrosimone L, et al.
IEEE Trans Ultrason Ferroelectr Freq Control
. 2022 Sep;
69(11):3145-3154.
PMID: 36054392
Ultrasonic rotational 3-D shear wave elasticity imaging (SWEI) has been used to induce and evaluate multiple shear wave modes, including both the shear horizontal (SH) and shear vertical (SV) modes...
5.
Rouze N, Caenen A, Nightingale K
Phys Med Biol
. 2022 Mar;
67(9).
PMID: 35263729
Determining elastic properties of materials from observations of shear wave propagation is difficult in anisotropic materials because of the complex relations among the propagation direction, shear wave polarizations, and material...
6.
Rouze N, Knight A, Nightingale K
Phys Med Biol
. 2021 Sep;
66(21).
PMID: 34544067
Five material parameters are required to describe a transversely isotropic (TI) material including two Poisson's ratios that characterize the compressibility of the material. Both Poisson's ratios must be specified to...
7.
Knight A, Trutna C, Rouze N, Hobson-Webb L, Caenen A, Jin F, et al.
IEEE Trans Med Imaging
. 2021 Aug;
41(1):133-144.
PMID: 34415833
Using a 3D rotational shear wave elasticity imaging (SWEI) setup, 3D shear wave data were acquired in the vastus lateralis of a healthy volunteer. The innate tilt between the transducer...
8.
Palmeri M, Milkowski A, Barr R, Carson P, Couade M, Chen J, et al.
J Ultrasound Med
. 2021 Jan;
40(3):569-581.
PMID: 33410183
Objectives: To quantify the bias of shear wave speed (SWS) measurements between different commercial ultrasonic shear elasticity systems and a magnetic resonance elastography (MRE) system in elastic and viscoelastic phantoms....
9.
Caenen A, Knight A, Rouze N, Bottenus N, Segers P, Nightingale K
J Mech Behav Biomed Mater
. 2020 May;
107:103754.
PMID: 32364950
Tissue nonlinearity is conventionally measured in shear wave elastography by studying the change in wave speed caused by the tissue deformation, generally known as the acoustoelastic effect. However, these measurements...
10.
Rouze N, Palmeri M, Nightingale K
Phys Med Biol
. 2019 Nov;
65(1):015014.
PMID: 31775132
Assessing material properties from observations of shear wave propagation following an acoustic radiation force impulse (ARFI) excitation is difficult in anisotropic materials because of the complex relations among the propagation...