Browsing by Author "Vant Wout, Elwin"
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- ItemFull-Wave Modeling of Transcranial Ultrasound using Volume-Surface Integral Equations and CT-Derived Heterogeneous Skull Data(2025) Almuna Morales, Alberto; Aballay Fernandez, Danilo Ignacio; Gélat, Pierre; Haqshenas, Reza; Vant Wout, ElwinTranscranial ultrasound therapy uses focused acoustic energy to induce therapeutic bioeffects in the brain. Ultrasound is transmitted through the skull, which is highly attenuating and heterogeneous, causing beam distortion, reducing focal pressure, and shifting the target location. Computational models are frequently used for predicting beam aberration, assessing cranial heating, and correcting the phase of ultrasound transducers. These models often rely on computed tomography (CT) images to build patient-specific geometries and estimate skull acoustic properties. However, the coarse voxel resolution of CT limits accuracy for differential equation solvers. This paper presents an efficient numerical method based on volume-surface integral equations to model full-wave acoustic propagation through heterogeneous skull tissue. We have shown that this approach is highly accurate on relatively coarse meshes compared to the minimum wavelength, enabling direct use of CT voxel data. The method is validated against a high-resolution boundary element model using an averaged skull representation. Simulations with a CT-based skull model and a bowl transducer show significant beam distortion and attenuation, with a focal shift of several millimeters from the homogeneous case