Effective transcranial transmission of focused ultrasound is desirable for various therapeutic applications. Time-reversal (TR) focusing based on numerical simulations of ultrasound propagation can be used to correct for the aberrating skull layer. For weakly heterogeneous media, k-space and pseudospectral time domain (PSTD) methods have been shown to have increased accuracy and efficiency compared to the finite-difference time domain (FDTD) methods typically used in TR. However, their suitability for highly heterogeneous, transcranial simulations is less clear. Here, this is established in terms of spatial and temporal sampling requirements through numerical testing and comparison with FDTD schemes. PSTD schemes are shown to give equal or ...
Time-reversal acoustics (TRA) is an alternative to standard focusing approaches in medical ultrasoun...
AbstractIn High Intensity Focused Ultrasound (HIFU), when multiple targets are present in a linear m...
Computational models of acoustic wave propagation are frequently used in transcranial ultrasound the...
Non-invasive, focal neurostimulation with ultrasound is a potentially powerful neuroscientific tool ...
Non-invasive, focal neurostimulation with ultrasound is a potentially powerful neuroscientific tool ...
Neural stimulation with low-intensity ultrasound is a potentially transformative technology with app...
Introduction: The medical applications of ultrasound on human brain are highly limited by the phase ...
International audienceThe phase correction necessary for transcranial ultrasound therapy requires nu...
Severe energy dissipation and waveform aberration in ultrasonic wave propagation due to the human sk...
International audienceBackground, Motivation and ObjectiveTranscranial ultrasound (US) simulations a...
Focusing ultrasonic fields onto selected targets within the body with good accuracy and sufficient i...
While transcranial ultrasound imaging is a promising diagnostic modality, it is still hindered due t...
International audienceIn transcranial focused ultrasound therapies, such as treating essential tremo...
Computational models of acoustic wave propagation are frequently used in transcranial ultrasound the...
Background Transcranial focused ultrasound (tcFUS) is an attractive noninvasive modality for neuros...
Time-reversal acoustics (TRA) is an alternative to standard focusing approaches in medical ultrasoun...
AbstractIn High Intensity Focused Ultrasound (HIFU), when multiple targets are present in a linear m...
Computational models of acoustic wave propagation are frequently used in transcranial ultrasound the...
Non-invasive, focal neurostimulation with ultrasound is a potentially powerful neuroscientific tool ...
Non-invasive, focal neurostimulation with ultrasound is a potentially powerful neuroscientific tool ...
Neural stimulation with low-intensity ultrasound is a potentially transformative technology with app...
Introduction: The medical applications of ultrasound on human brain are highly limited by the phase ...
International audienceThe phase correction necessary for transcranial ultrasound therapy requires nu...
Severe energy dissipation and waveform aberration in ultrasonic wave propagation due to the human sk...
International audienceBackground, Motivation and ObjectiveTranscranial ultrasound (US) simulations a...
Focusing ultrasonic fields onto selected targets within the body with good accuracy and sufficient i...
While transcranial ultrasound imaging is a promising diagnostic modality, it is still hindered due t...
International audienceIn transcranial focused ultrasound therapies, such as treating essential tremo...
Computational models of acoustic wave propagation are frequently used in transcranial ultrasound the...
Background Transcranial focused ultrasound (tcFUS) is an attractive noninvasive modality for neuros...
Time-reversal acoustics (TRA) is an alternative to standard focusing approaches in medical ultrasoun...
AbstractIn High Intensity Focused Ultrasound (HIFU), when multiple targets are present in a linear m...
Computational models of acoustic wave propagation are frequently used in transcranial ultrasound the...