Publication detail
Rician inverse Gaussian model of scattering in ultrasound contrast media
SLÁVIK, V. KOLÁŘ, R. HARABIŠ, V. JIŘÍK, R.
Original Title
Rician inverse Gaussian model of scattering in ultrasound contrast media
English Title
Rician inverse Gaussian model of scattering in ultrasound contrast media
Type
conference paper
Language
en
Original Abstract
A statistical analysis of 1st and 2nd harmonic echoes backscattered from contrast media using Rician inverse Gaussian (RiIG) envelope model is described. Knowledge of statistics of the scattered signal may contribute to perfusion analysis. A range of ultrasound contrast agent (UCA) concentrations is examined. The RiIG distribution was fitted to image histograms, using Matlab Global optimization toolbox. Influence of simulated attenuation was also tested. Analysis of resulting RiIG distribution parameters shows that while its parameters alpha and beta do not follow any properties of the changing concentration, parameter delta shows logarithmic dependence on concentration in range of 3.125 - 50 mg/l. Taking into account simulated attenuation, we observed that the range and shape of the dependency remain stable, although the actual range of parameter delta decreases with increasing attenuation. This analysis contributes to our previous results, where the Nakagami distribution showed similar dependence of the shape parameter on UCA concentration in a smaller, partially overlapping, concentration range.
English abstract
A statistical analysis of 1st and 2nd harmonic echoes backscattered from contrast media using Rician inverse Gaussian (RiIG) envelope model is described. Knowledge of statistics of the scattered signal may contribute to perfusion analysis. A range of ultrasound contrast agent (UCA) concentrations is examined. The RiIG distribution was fitted to image histograms, using Matlab Global optimization toolbox. Influence of simulated attenuation was also tested. Analysis of resulting RiIG distribution parameters shows that while its parameters alpha and beta do not follow any properties of the changing concentration, parameter delta shows logarithmic dependence on concentration in range of 3.125 - 50 mg/l. Taking into account simulated attenuation, we observed that the range and shape of the dependency remain stable, although the actual range of parameter delta decreases with increasing attenuation. This analysis contributes to our previous results, where the Nakagami distribution showed similar dependence of the shape parameter on UCA concentration in a smaller, partially overlapping, concentration range.
Keywords
Nakagami Distribution, Histogram Fitting, Ultrasound Imaging, Contrast Agents
RIV year
2013
Released
25.07.2013
ISBN
978-1-4673-5684-8
Book
2013 IEEE International Ultrasonics Symposium Proceedings
Pages from
318
Pages to
321
Pages count
4
Documents
BibTex
@inproceedings{BUT100643,
author="Vladimír {Slávik} and Radim {Kolář} and Vratislav {Harabiš} and Radovan {Jiřík}",
title="Rician inverse Gaussian model of scattering in ultrasound contrast media",
annote="A statistical analysis of 1st and 2nd harmonic echoes backscattered from contrast media using Rician inverse Gaussian (RiIG) envelope model is described. Knowledge of statistics of the scattered signal may contribute to perfusion analysis. A range of ultrasound contrast agent (UCA) concentrations is examined. The RiIG distribution was fitted to image histograms, using Matlab Global optimization toolbox. Influence of simulated attenuation was also tested. Analysis of resulting RiIG distribution parameters shows that while its parameters alpha and beta do not follow any properties of the changing concentration, parameter delta shows logarithmic dependence on concentration in range of 3.125 - 50 mg/l. Taking into account simulated attenuation, we observed that the range and shape of the dependency remain stable, although the actual range of parameter delta decreases with increasing attenuation. This analysis contributes to our previous results, where the Nakagami distribution showed similar dependence of the shape parameter on UCA concentration in a smaller, partially overlapping, concentration range.",
booktitle="2013 IEEE International Ultrasonics Symposium Proceedings",
chapter="100643",
howpublished="electronic, physical medium",
year="2013",
month="july",
pages="318--321",
type="conference paper"
}