Enhancing Transcranial Focused Ultrasound Simulation Accuracy: The Impact of Transducer Geometry and Skull Modelling
Low-intensity focused ultrasound (LIFU) allows non-invasive neurological intervention by targeting specific brain regions. However, its efficacy can be compromised by the acoustic heterogeneity of the skull; leading to reliance on subject-specific simulation to aid planning. Current approaches (usin...
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| Published in | Proceedings - IEEE International Symposium on Applications of Ferroelectrics pp. 1 - 4 |
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| Main Authors | , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
22.09.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2375-0448 |
| DOI | 10.1109/UFFC-JS60046.2024.10794133 |
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| Abstract | Low-intensity focused ultrasound (LIFU) allows non-invasive neurological intervention by targeting specific brain regions. However, its efficacy can be compromised by the acoustic heterogeneity of the skull; leading to reliance on subject-specific simulation to aid planning. Current approaches (using software such as k-Wave) treat the transducer purely as a source, overlooking the influence of transducer's physical presence, potentially neglecting critical wave superposition effects and resultant pressure oscillations. This study aims to incorporate transducer geometry into simulation and validates the outcomes against experimental data. By integrating transducer geometry and empirical segmented skull parameters into the simulation, our prediction difference of focal peak pressure and focal volume were 6.5% and 23.1% compared to the measurement, offering a potential improvement in the neuromodulation planning of transcranial LIFU applications |
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| AbstractList | Low-intensity focused ultrasound (LIFU) allows non-invasive neurological intervention by targeting specific brain regions. However, its efficacy can be compromised by the acoustic heterogeneity of the skull; leading to reliance on subject-specific simulation to aid planning. Current approaches (using software such as k-Wave) treat the transducer purely as a source, overlooking the influence of transducer's physical presence, potentially neglecting critical wave superposition effects and resultant pressure oscillations. This study aims to incorporate transducer geometry into simulation and validates the outcomes against experimental data. By integrating transducer geometry and empirical segmented skull parameters into the simulation, our prediction difference of focal peak pressure and focal volume were 6.5% and 23.1% compared to the measurement, offering a potential improvement in the neuromodulation planning of transcranial LIFU applications |
| Author | Barnard, Isla Halliwell, Tyler Gilbertson, Tom Li, Han Huang, Zhihong |
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| Snippet | Low-intensity focused ultrasound (LIFU) allows non-invasive neurological intervention by targeting specific brain regions. However, its efficacy can be... |
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| SubjectTerms | Acoustic measurements Attenuation measurement Geometry hydrophone measurement k-Wave simulation Neuromodulation Planning Solid modeling transcranial focused ultrasound Transducers Ultrasonic imaging Ultrasonic variables measurement Volume measurement |
| Title | Enhancing Transcranial Focused Ultrasound Simulation Accuracy: The Impact of Transducer Geometry and Skull Modelling |
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