Prediction of HIFU Propagation in a Dispersive Medium via Khokhlov–Zabolotskaya–Kuznetsov Model Combined with a Fractional Order Derivative

Liu, Shilei; Yang, Yanye; Li, Chenghai; Guo, Xiasheng; Tu, Juan; Zhang, Dong

doi:10.3390/app8040609

Cited by 11 publications

(8 citation statements)

References 49 publications

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“…This is in line with the findings of Gasperini et al (2021) and indicates that more research on the complicated behavior of nonlinear pressure waves emitted or scattered from accelerating sources is needed. For instance, the excitation of the broadband spectrum caused by the oscillating wave emitting boundary likely has an effect on the attenuation of the pressure wave, which is frequency dependent (Chen, 2005;Liu et al, 2018;Jiménez et al, 2015). In order to achieve a more accurate representation of nonlinear waves radiated by oscillating bubbles, the inclusion of transsonic and supersonic background flows, induced by the bubble motion, into the existing modeling framework is one of the most pressing problems.…”

Section: Discussionmentioning

confidence: 99%

“…Generally, the attenuation of sound waves can effectively be described by power laws of the wave frequencies, which essentially reflects the increase of viscous attenuation with increasing curvature of the wave profile. Thus, the higher harmonics of the wave are attenuated more strongly than the lower harmonics (Chen, 2005;Jiménez et al, 2015;Liu et al, 2018). An idealized shock contains an infinite amount of harmonics.…”

Section: Linear Doppler Modulation Of the Nonlinear Wavementioning

confidence: 99%

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Explicit Predictor-Corrector Method for Nonlinear Acoustic Waves Excited by a Moving Wave Emitting Boundary

Schenke,

Sewerin,

van Wachem

et al. 2022

Preprint

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We present an explicit finite difference time domain method to solve the lossless Westervelt equation for a moving wave emitting boundary in one dimension and in spherical symmetry. The approach is based on a coordinate transformation between a moving physical domain and a fixed computational domain. This allows to simulate the combined effects of wave profile distortion due to the constitutive nonlinearity of the medium and the nonlinear Doppler modulation of a pressure wave due to the acceleration of the wave emitting boundary. A predictor-corrector method is employed to enhance the numerical stability of the method in the presence of shocks and grid motion. It is demonstrated that the method can accurately predict the Doppler shift of nonlinear wave distortion and the amplitude modulation caused by an oscillating motion of the wave emitting boundary. The novelty of the presented methodology lies in its capability to reflect the Doppler shift of the rate of nonlinear wave profile distortion and shock attenuation for finite amplitude acoustic waves emitted from an accelerating boundary.

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Section: Discussionmentioning

confidence: 99%

Section: Linear Doppler Modulation Of the Nonlinear Wavementioning

confidence: 99%

Explicit Predictor-Corrector Method for Nonlinear Acoustic Waves Excited by a Moving Wave Emitting Boundary

Schenke,

Sewerin,

van Wachem

et al. 2022

Preprint

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“…The volume of a gNP of 14 nm diameter is 1.437 × 10 −18 cm 3 . The 0.125% of 1 mL is 0.00125 cm 3 48 reported undesirable accumulation of gNPs in liver and spleen when higher concentrations of 1.4 × 10 17 gNPs were used. Therefore, relatively lower concentration (0.125%) has been considered to be physiologically relevant.…”

Section: ■ Methodsmentioning

confidence: 99%

Assessment of Enhanced Thermal Effect Due to Gold Nanoparticles during MR-Guided High-Intensity Focused Ultrasound (HIFU) Procedures Using a Mouse-Tumor Model

Devarakonda

Stringer

Rao

et al. 2019

ACS Biomater. Sci. Eng.

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An in vivo study was conducted using a mouse tumor model, to assess the utility of using gold nanoparticles (gNPs) during HIFU procedures to locally enhance heating at low powers. Tumors were grown using melanoma tumor cells (B16/F10) subcutaneously on the right flanks of mice (C57Bl/6J). Physiologically relevant concentrations (0 and 0.125%) of gNPs were directly injected into the tumors. Sonications at acoustic powers of 10 and 30 W were performed for a duration of 16 s inside a magnetic-resonance system. Temperature increases and lesion volumes were calculated and compared for procedures with and without gNPs. Histopathology study was conducted using a cleaved caspase 3 antibody and hematoxylin and eosin staining after removing the tumors from the mice. For an acoustic power of 30 W, end-of-sonication temperature increases of 25.4 ± 3.8 °C (0% gNP) and 42.2 ± 4.6 °C (0.125% gNP) were measured. Using cleaved caspase 3 antibody, it was observed that more than 1% of nuclei are affected in the case of 0.125% and 30 W but only 0.01% of nuclei are affected in the 0% case. For 30 W and a gNP concentration of 0.125%, a lesion volume of 0.33 ± 0.22 mm 3 was obtained, while no lesion was observed without gNP's.

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“…Medical applications are presented in [3][4][5][6]. Hearing issues are studied by Cucis et al, comparing normal-hearing subjects and cochlear implant users, and Ito et al, regarding the effects of surgical instruments in ear surgery.…”

Section: Modelling Simulation and Data Analysis In Acoustical Problemsmentioning

confidence: 99%

Special Issue on Modelling, Simulation and Data Analysis in Acoustical Problems

Guarnaccia

Tronchin

Viscardi³

2019

Applied Sciences

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Prediction of HIFU Propagation in a Dispersive Medium via Khokhlov–Zabolotskaya–Kuznetsov Model Combined with a Fractional Order Derivative

Cited by 11 publications

References 49 publications

Explicit Predictor-Corrector Method for Nonlinear Acoustic Waves Excited by a Moving Wave Emitting Boundary

Explicit Predictor-Corrector Method for Nonlinear Acoustic Waves Excited by a Moving Wave Emitting Boundary

Assessment of Enhanced Thermal Effect Due to Gold Nanoparticles during MR-Guided High-Intensity Focused Ultrasound (HIFU) Procedures Using a Mouse-Tumor Model

Special Issue on Modelling, Simulation and Data Analysis in Acoustical Problems

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