The skull bone is a strong aberrating medium for ultrasound in the low MHz range. Brain treatment with High Intensity Focused Ultrasound (HIFU) can however be achieved through the skull by multichannel arrays using an adaptive focusing technique. Time-reversal is a robust adaptive technique for correction of aberrations. It achieves moreover a matched filter and then allows the optimal energy concentration for thermal therapy. Nevertheless, this method requires a reference signal sent by a source embedded in brain tissues. Acoustically generated cavitation bubbles are active acoustic sources which can be remotely generated. Therefore, they are suited for this non-invasive time reversal aberration correction. We report here in vitro experime...
This research has investigated non-invasive tissue ablation techniques in ultrasonic surgery that ar...
This is the published version. Copyright 2014 American Institute of PhysicsEfficient and noninvasive...
Neural stimulation with low-intensity ultrasound is a potentially transformative technology with app...
International audienceBrain treatment through the skull with high-intensity focused ultrasound can b...
International audiencePurpose: This study aims to demonstrate, using human cadavers the feasibility ...
Time-reversal acoustics (TRA) is an alternative to standard focusing approaches in medical ultrasoun...
The ability to treat brain cancers and other disorders of the central nervous system is inherently l...
International audienceAdaptive focusing of ultrasonic waves under the guidance of a magnetic resonan...
A novel method for sustaining inertial cavitation during high-intensity focused ultrasound (HIFU) ex...
Objective. Advances in ultrasound transducer array and amplifier technologies have prompted many int...
Non-linear emissions from microbubbles introduced to the vasculature for exposure to focused ultraso...
Non-invasive, focal neurostimulation with ultrasound is a potentially powerful neuroscientific tool ...
Ultrasound can produce selective, accurately localized biological effects and is potentially useful ...
Transcranial focused ultrasound (tFUS) is a promising technique for non-invasive and spatially targe...
We report a study on two methods that enable spatial control and induced cavitation on targeted micr...
This research has investigated non-invasive tissue ablation techniques in ultrasonic surgery that ar...
This is the published version. Copyright 2014 American Institute of PhysicsEfficient and noninvasive...
Neural stimulation with low-intensity ultrasound is a potentially transformative technology with app...
International audienceBrain treatment through the skull with high-intensity focused ultrasound can b...
International audiencePurpose: This study aims to demonstrate, using human cadavers the feasibility ...
Time-reversal acoustics (TRA) is an alternative to standard focusing approaches in medical ultrasoun...
The ability to treat brain cancers and other disorders of the central nervous system is inherently l...
International audienceAdaptive focusing of ultrasonic waves under the guidance of a magnetic resonan...
A novel method for sustaining inertial cavitation during high-intensity focused ultrasound (HIFU) ex...
Objective. Advances in ultrasound transducer array and amplifier technologies have prompted many int...
Non-linear emissions from microbubbles introduced to the vasculature for exposure to focused ultraso...
Non-invasive, focal neurostimulation with ultrasound is a potentially powerful neuroscientific tool ...
Ultrasound can produce selective, accurately localized biological effects and is potentially useful ...
Transcranial focused ultrasound (tFUS) is a promising technique for non-invasive and spatially targe...
We report a study on two methods that enable spatial control and induced cavitation on targeted micr...
This research has investigated non-invasive tissue ablation techniques in ultrasonic surgery that ar...
This is the published version. Copyright 2014 American Institute of PhysicsEfficient and noninvasive...
Neural stimulation with low-intensity ultrasound is a potentially transformative technology with app...