A theoretical and experimental investigation of nonlinear ultrasound propagation through tissue mimicking fluids
A theoretical and experimental investigation of nonlinear ultrasound propagation through tissue mimicking fluids
A numerical model [l] is used to investigate finite amplitude ultrasound propagation through multiple layers of tissue-like media. This model uses a finite difference method to solve the nonlinear parabolic KZK wave equation [2]. The code ‘is modified to include an arbitrary frequency dependence of absorption and transmission effects for wave propagation across a plane interface at normal incidence. Measurements are taken of the axial nonlinear pressure field generated from a circular focused, 2.25 MHz source, through single- and multiple-layered tissue mimicking fluids. Two tissue mimicking fluids
are developed to show acoustic properties similar to amniotic fluid and a typical soft tissue. The measured values of the nonlinearity parameter sound velocity and frequency dependence of absorption for both fluids are presented. These acoustic parameters in
addition to the measurement of the source conditions are input to the numerical model allowing the experimental conditions to be simulated. Comparisons are made between the model’s predictions and the axial pressure field measurements. Results are presented in the frequency domain showing the fundamental and three subsequent harmonic amplitudes on axis, as a function of axial distance. The results show that significant onlinear distortion can occur through media with characteristics typical of tissue. Excellent agreement is found between theory and experiment indicating that the model can be used to predict nonlinear ultrasound propagation through multiple layers of tissue-like media.
0-7803-6365-5
1355-1358
Institution of Electrical Engineers
Rielly, M.
68ae24a3-3460-4f4e-98f3-bac26521d04c
Humphrey, V.F.
ece34fc9-f0a8-4aa7-808f-c43d7f7cd55a
Duck, F.
78d194a5-ce10-4f10-8982-c6ab04251979
2000
Rielly, M.
68ae24a3-3460-4f4e-98f3-bac26521d04c
Humphrey, V.F.
ece34fc9-f0a8-4aa7-808f-c43d7f7cd55a
Duck, F.
78d194a5-ce10-4f10-8982-c6ab04251979
Rielly, M., Humphrey, V.F. and Duck, F.
(2000)
A theoretical and experimental investigation of nonlinear ultrasound propagation through tissue mimicking fluids.
In Proceedings IEEE International Ultrasonics Symposium.
Institution of Electrical Engineers.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
A numerical model [l] is used to investigate finite amplitude ultrasound propagation through multiple layers of tissue-like media. This model uses a finite difference method to solve the nonlinear parabolic KZK wave equation [2]. The code ‘is modified to include an arbitrary frequency dependence of absorption and transmission effects for wave propagation across a plane interface at normal incidence. Measurements are taken of the axial nonlinear pressure field generated from a circular focused, 2.25 MHz source, through single- and multiple-layered tissue mimicking fluids. Two tissue mimicking fluids
are developed to show acoustic properties similar to amniotic fluid and a typical soft tissue. The measured values of the nonlinearity parameter sound velocity and frequency dependence of absorption for both fluids are presented. These acoustic parameters in
addition to the measurement of the source conditions are input to the numerical model allowing the experimental conditions to be simulated. Comparisons are made between the model’s predictions and the axial pressure field measurements. Results are presented in the frequency domain showing the fundamental and three subsequent harmonic amplitudes on axis, as a function of axial distance. The results show that significant onlinear distortion can occur through media with characteristics typical of tissue. Excellent agreement is found between theory and experiment indicating that the model can be used to predict nonlinear ultrasound propagation through multiple layers of tissue-like media.
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Published date: 2000
Venue - Dates:
IEEE International Ultrasonics Symposium, San Juan, Puerto Rico, 2000-01-01
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Local EPrints ID: 10154
URI: http://eprints.soton.ac.uk/id/eprint/10154
ISBN: 0-7803-6365-5
PURE UUID: 22ee4bde-0e43-4f10-8113-c16b3ec25536
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Date deposited: 28 Apr 2005
Last modified: 05 Mar 2024 17:47
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Contributors
Author:
M. Rielly
Author:
V.F. Humphrey
Author:
F. Duck
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