Add to ORKGNonlinear propagation of ultrasound can cause imaging errors in the context of medical ultrasound with microbubble ultrasound contrast agents. Modelling nonlinear propagation of ultrasound through a microbubble cloud is therefore essential for simulating the phenomenon to understand the causes of these errors and to develop suitable error correction techniques to reduce these imaging errors. Such models do exist but large discrepancies are found when simulation results are compared to experimental data. In this work the reasons for these inaccuracies are examined and a more realistic approach is proposed. © 2007 IEEE
Nonlinear wave propagation has, for the last couple of decades, become an increasingly more importan...
In contrast enhanced ultrasound images (CEUS) that use microbubbles, nonlinear propagation of ultras...
The difference between the density of the gas core of microbubbles and the surrounding media causes ...
Nonlinear propagation of ultrasound can cause imaging errors in the context of medical ultrasound wi...
In a fully nonlinear model of wave propagation through bubbly media, computational complexity arises...
Nonlinear propagation of ultrasound through microbubble populations can generate artifacts and reduc...
grantor: University of TorontoEncapsulated microbubble contrast agents that can be injecte...
The propagation of diagnostic ultrasonic imaging pulses in tissue and their interaction with contras...
Interest in microbubbles as agents for therapeutic and quantitative imaging applications in biomedic...
This work presents a simulation of the response of packets of microbubbles in an ultrasonic pulse-ec...
The model study of nonlinear effects in the ultrasound diagnostics is focused on developing and expe...
Most techniques for contrast-enhanced ultrasound imaging require linear propagation to detect nonlin...
We studied the effects of a small bubble cloud located at the pre-focal area of a high-intensity foc...
Microbubbles are currently used as ultrasound contrast agents. However, microbubbles have the potent...
Microbubble ultrasound contrast agents allow blood perfusion to be imaged at the cost of an increase...
Nonlinear wave propagation has, for the last couple of decades, become an increasingly more importan...
In contrast enhanced ultrasound images (CEUS) that use microbubbles, nonlinear propagation of ultras...
The difference between the density of the gas core of microbubbles and the surrounding media causes ...
Nonlinear propagation of ultrasound can cause imaging errors in the context of medical ultrasound wi...
In a fully nonlinear model of wave propagation through bubbly media, computational complexity arises...
Nonlinear propagation of ultrasound through microbubble populations can generate artifacts and reduc...
grantor: University of TorontoEncapsulated microbubble contrast agents that can be injecte...
The propagation of diagnostic ultrasonic imaging pulses in tissue and their interaction with contras...
Interest in microbubbles as agents for therapeutic and quantitative imaging applications in biomedic...
This work presents a simulation of the response of packets of microbubbles in an ultrasonic pulse-ec...
The model study of nonlinear effects in the ultrasound diagnostics is focused on developing and expe...
Most techniques for contrast-enhanced ultrasound imaging require linear propagation to detect nonlin...
We studied the effects of a small bubble cloud located at the pre-focal area of a high-intensity foc...
Microbubbles are currently used as ultrasound contrast agents. However, microbubbles have the potent...
Microbubble ultrasound contrast agents allow blood perfusion to be imaged at the cost of an increase...
Nonlinear wave propagation has, for the last couple of decades, become an increasingly more importan...
In contrast enhanced ultrasound images (CEUS) that use microbubbles, nonlinear propagation of ultras...
The difference between the density of the gas core of microbubbles and the surrounding media causes ...