Publication Details

Full modelling of high-intensity focused ultrasound and thermal heating in the kidney of realistic patient models

SUOMI, V.; JAROŠ, J.; TREEBY, B.; CLEVELAND, R. Full modelling of high-intensity focused ultrasound and thermal heating in the kidney of realistic patient models. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 2018, vol. 65, no. 11, p. 2660-2670. ISSN: 0018-9294.
Czech title
Modelování ultrazvuku o vysoké intenzitě a jeho termálního působení na model ledvin reálných pacientů
Type
journal article
Language
English
Authors
Suomi Visa (FIT)
Jaroš Jiří, doc. Ing., Ph.D. (DCSY)
Treeby Bradley
Cleveland Robin (FIT)
URL
Keywords

High-intensity focused ultrasound, kidney, simulation, aberration, phase shift

Abstract

Objective: High-intensity focused ultrasound (HIFU) therapy can be used for non-invasive treatment of kidney (renal) cancer, but the clinical outcomes have been variable. In this study, the efficacy of renal HIFU therapy was studied using nonlinear acoustic and thermal simulations in three patients. Methods: The acoustic simulations were conducted with and without refraction in order to investigate its effect on the shape, size and pressure distribution at the focus. The values for the attenuation, sound speed, perfusion and thermal conductivity of the kidney were varied over the reported ranges to determine the effect of variability on heating. Furthermore, the phase aberration was studied in order to quantify the underlying phase shifts using a second order polynomial function. Results: The ultrasound field intensity was found to drop on average 11.1 dB with refraction and 6.4 dB without refraction. Reflection at tissue interfaces was found to result in a loss less than 0.1 dB. Focal point splitting due to refraction significantly reduced the heating efficacy. Of all the tissue parameters, perfusion was found to affect the heating the most. Small changes in temperature were seen with varying attenuation and thermal conductivity, but no visible changes were present with sound speed variations. The aberration study revealed an underlying trend in the spatial distribution of the phase shifts. Conclusion: The results show that the efficacy of HIFU therapy in the kidney could be improved with aberration correction. Significance: A method is proposed by which patient specific pre-treatment calculations could be used to overcome the aberration and therefore make ultrasound treatment possible.

Published
2018
Pages
2660–2670
Journal
IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, vol. 65, no. 11, ISSN 0018-9294
DOI
UT WoS
000447801800028
EID Scopus
BibTeX
@article{BUT144401,
  author="Visa {Suomi} and Jiří {Jaroš} and Bradley {Treeby} and Robin {Cleveland}",
  title="Full modelling of high-intensity focused ultrasound and thermal heating in the kidney of realistic patient models",
  journal="IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING",
  year="2018",
  volume="65",
  number="11",
  pages="2660--2670",
  doi="10.1109/TBME.2018.2870064",
  issn="0018-9294",
  url="https://ieeexplore.ieee.org/document/8464260"
}
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