2020
DOI: 10.3389/fnins.2020.00317
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Numerical Evaluation of the Influence of Skull Heterogeneity on Transcranial Ultrasonic Focusing

Abstract: In transcranial penetration, ultrasound undergoes refraction, diffraction, multi-reflection, and mode conversion. These factors lead to phase aberration and waveform distortion, which impede the realization of transcranial ultrasonic imaging and therapy. Ray tracing has been used to correct the phase aberration and is computationally more efficient than traditional full-wave simulation. However, when ray tracing has been used for transcranial investigation, it has generally been on the premise that the skull m… Show more

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Cited by 17 publications
(27 citation statements)
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“…This method is used in Refs. [11–13, 15, 19–21, 26, 48–51]. This relationship is similar to Equations (16) and () as it implies a linear fit between speed of sound and HU.…”
Section: Skull Modelingmentioning
confidence: 59%
See 1 more Smart Citation
“…This method is used in Refs. [11–13, 15, 19–21, 26, 48–51]. This relationship is similar to Equations (16) and () as it implies a linear fit between speed of sound and HU.…”
Section: Skull Modelingmentioning
confidence: 59%
“…In Jiang et al., 51 the velocity on the skull surface is taken to be that in cortical bone (which influences refraction computations) and the velocity inside the skull is taken as being the averaged value on the ray paths (which influences the time‐of‐flight computations). The density is taken as being the maximum density as it influences the refraction computations.…”
Section: Skull Modelingmentioning
confidence: 99%
“…As the aperture size of the 500 kHz ultrasound transducer is 30 mm but the 350 kHz ultrasound transducer has an aperture size of 50 mm, we speculated the acoustic refraction difference induced by disparate transducer aperture size might be the reason behind this effect. 54 Detailed study and discussion are presented in Sections 3.3 and 4 .…”
Section: Resultsmentioning
confidence: 99%
“…No linear relationship was found either between the skull thickness and the transcranial maximal acoustic pressure or between the skull thickness and the ultrasound full-width at half magnitude volume behind the skull [58]. To address this issue, tFUS dose and target planning before the neuromodulation experiment would be required and should be individualized; such a planning may rely on a priori computer simulations for predicting acoustic fields within individual skull cavity based on respective skull model established from CT scans [58,59]. Moreover, given the "cigar" shaped ultrasound beam, it is inevitably to cover other functional brain areas beyond the primary motor cortex.…”
Section: Discussionmentioning
confidence: 99%