Phase aberration simulation study of MRgFUS breast treatments

Farrer, Alexis; Almquist, Scott; Dillon, Christopher; Neumayer, Leigh; Parker, Dennis L.; Christensen, Douglas A.; Payne, Allison

doi:10.1118/1.4941013

Cited by 18 publications

(11 citation statements)

References 37 publications

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“…It has been demonstrated that phase aberration can affect the efficiency of an ultrasound treatment not only in transcranial applications [ 33 ] but also in soft tissue anatomies, such as the breast [ 34 , 35 ]. For renal denervation applications, the presence of the spine as well as multiple tissue types in the acoustic window (including muscle, fat, kidney and liver) can potentially distort the ultrasound beam’s focus and reduce the energy delivered to the treatment region.…”

Section: Discussionmentioning

confidence: 99%

Effect of applied energy in renal sympathetic denervation with magnetic resonance guided focused ultrasound in a porcine model

et al. 2017

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BackgroundPast catheter-based and focused ultrasound renal denervation studies have indicated that procedure efficacy is related to the number of ablations performed or the amount of energy used for the ablation. This study extends those prior results and investigates energy level effects on the efficacy of MR guided focused ultrasound renal denervation performed in a porcine model.MethodsTwenty-four normotensive pigs underwent unilateral denervation at three intensity levels. The applied intensity level was retrospectively de-rated to account for variability in animal size. Efficacy was assessed through evaluating the norepinephrine present in the kidney medulla and through histological analysis. The treatment was performed under MRI guidance including pre- and post-procedure T1-weighted and quantitative T1 and T2 imaging. During treatment, the temperature in the near field of the ultrasound beam was monitored in real time with MR temperature imaging. Energy delivery in the regions surrounding the renal artery was independently confirmed through an invasive fiberoptic temperature probe placed in the right renal artery.ResultsAnimals that underwent denervation at a de-rated acoustic intensity of greater than 1.2 kW/cm2 had a significantly lower norepinephrine concentration in the kidney indicating successful denervation. Images obtained during the treatment indicated no tissue changes in the kidneys as a function of the procedure but there were significant T1 changes present in the right lumbar muscles, although only one animal had indication of muscle damage at the time of necropsy.ConclusionsWhile MR guided focused ultrasound renal denervation was found to be safe and effective in this normotensive animal model, the results indicated the need to incorporate patient-specific details in the treatment planning of MRgFUS renal denervation procedure.

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Section: Discussionmentioning

confidence: 99%

Effect of applied energy in renal sympathetic denervation with magnetic resonance guided focused ultrasound in a porcine model

et al. 2017

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“…The propagation of ultrasound from a breast‐dedicated focused ultrasound transducer into a gelatin phantom with the acoustic (speed of sound = 1553 m/s, density = 1057 kg/m 3 , attenuation = 0.062 Np/cm/MHz) and thermal (specific heat capacity = 3635 J/kg/°C, thermal conductivity = 0.549 W/m/°C, perfusion = 0 kg/m 3 /s) parameters described in Ref was modeled with 0.4‐mm isotropic resolution and 181 × 181 × 240 matrix size using the hybrid angular spectrum method with 3 different ultrasound trajectories (Figure ). The geometric focus was placed in the center of the simulated phantom.…”

Section: Methodsmentioning

confidence: 99%

Effect of k‐space‐weighted image contrast and ultrasound focus size on the accuracy of proton resonance frequency thermometry

Svedin

Dillon

Parker

2018

Magnetic Resonance in Med

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The accuracy and precision of proton resonance frequency temperature measurements from a stack-of-stars acquisition using a sliding KWIC window reconstruction are dependent on the size of the KWIC window and the size and shape of the heated region. The temporal modulation transfer function of KWIC reconstructions for any object size can predict the temporal response to changes in signal being acquired, such as temperature and contrast enhancement.

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“…Since it is not possible to observe the ultrasound wave propagation, numerical simulation represents an effective tool for the understanding of the applied ultrasound field and for the development of therapeutic ultrasound devices as well as ultrasound imaging techniques. Numerical simulation of the HIFU treatment was applied and the focus control was examined using a phased-array transducer [ 15 , 16 ]. The shape of the superficial tissue layers was shown to play a significant role in determining the shape of the focal spot.…”

Section: Introductionmentioning

confidence: 99%

Effects of breast structure on high-intensity focused ultrasound focal error

et al. 2018

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BackgroundThe development of imaging technologies and breast cancer screening allowed early detection of breast cancers. High-intensity focused ultrasound (HIFU) is a non-invasive cancer treatment, but the success of HIFU ablation was depending on the system type, imaging technique, ablation protocol, and patient selection. Therefore, we aimed to determine the relationship between breast tissue structure and focal error during breast cancer HIFU treatment.MethodsNumerical simulations of the breast cancer HIFU ablation were performed using digital breast phantoms constructed using the magnetic resonance imaging data obtained from 12 patients.ResultsThe focal shapes were distorted despite breast tissue representing soft tissue. Focal errors are caused by the complex distribution of fibroglandular tissue, and they depend on the target position and the arrangement of the transducer. We demonstrated that the focusing ratio increases with the decrease in the local acoustic inhomogeneity, implying that it may be used as an indicator to reduce the HIFU focal error depending on the breast structure.ConclusionsThe obtained results demonstrated that the focal error observed during the breast cancer HIFU treatment is highly dependent on the structure of fibroglandular tissue. The optimal arrangement of the transducer to the target can be obtained by minimizing the local acoustic inhomogeneity before the breast cancer HIFU treatment.

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Phase aberration simulation study of MRgFUS breast treatments

Cited by 18 publications

References 37 publications

Effect of applied energy in renal sympathetic denervation with magnetic resonance guided focused ultrasound in a porcine model

Effect of applied energy in renal sympathetic denervation with magnetic resonance guided focused ultrasound in a porcine model

Effect of k‐space‐weighted image contrast and ultrasound focus size on the accuracy of proton resonance frequency thermometry

Effects of breast structure on high-intensity focused ultrasound focal error

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