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Erschienen in:

2017 | Supplement | Buchkapitel

Simulation of Patient-Specific Deformable Ultrasound Imaging in Real Time

verfasst von : Mafalda Camara, Erik Mayer, Ara Darzi, Philip Pratt

Erschienen in: Imaging for Patient-Customized Simulations and Systems for Point-of-Care Ultrasound

Verlag: Springer International Publishing

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Abstract

Intraoperative ultrasound is an imaging modality frequently used to provide delineation of tissue boundaries. This paper proposes a simulation platform that enables rehearsal of patient-specific deformable ultrasound scanning in real-time, using preoperative CT as the data source. The simulation platform was implemented within the GPU-accelerated NVIDIA FleX position-based dynamics framework. The high-resolution particle model is used to deform both surface and volume meshes. The latter is used to compute the barycentric coordinates of each simulated ultrasound image pixel in the surrounding volume, which is then mapped back to the original undeformed CT volume. To validate the computation of simulated ultrasound images, a kidney phantom with an embedded tumour was CT-scanned in the rest position and at five different levels of probe-induced deformation. Measures of normalised cross-correlation and similarity between features were adopted to compare pairs of simulated and ground truth images. The accurate results demonstrate the potential of this approach for clinical translation.

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Vorheriges Kapitel Cortical Envelope Modeling for Interactive Patient-Customized Curvilinear Reformatting in the Native Space

Nächstes Kapitel A Hybrid CNN Feature Model for Pulmonary Nodule Differentiation Task

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Titel: Simulation of Patient-Specific Deformable Ultrasound Imaging in Real Time
verfasst von: Mafalda Camara
Erik Mayer
Ara Darzi
Philip Pratt
Verlag: Springer International Publishing
Buch: Imaging for Patient-Customized Simulations and Systems for Point-of-Care Ultrasound
Print ISBN: 978-3-319-67551-0

Electronic ISBN: 978-3-319-67552-7

Copyright-Jahr: 2017
DOI: https://doi.org/10.1007/978-3-319-67552-7_2

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