Wolfgang Wein scite author profile

Capturing an enclosing volume of moving subjects and organs using fast individual image slice acquisition has shown promise in dealing with motion artefacts. Motion between slice acquisitions results in spatial inconsistencies that can be resolved by slice-to-volume reconstruction (SVR) methods to provide high quality 3D image data. Existing algorithms are, however, typically very slow, specialised to specific applications and rely on approximations, which impedes their potential clinical use. In this paper, we present a fast multi-GPU accelerated framework for slice-to-volume reconstruction. It is based on optimised 2D/3D registration, super-resolution with automatic outlier rejection and an additional (optional) intensity bias correction. We introduce a novel and fully automatic procedure for selecting the image stack with least motion to serve as an initial registration target. We evaluate the proposed method using artificial motion corrupted phantom data as well as clinical data, including tracked freehand ultrasound of the liver and fetal Magnetic Resonance Imaging. We achieve speed-up factors greater than 30 compared to a single CPU system and greater than 10 compared to currently available state-of-the-art multi-core CPU methods. We ensure high reconstruction accuracy by exact computation of the point-spread function for every input data point, which has not previously been possible due to computational limitations. Our framework and its implementation is scalable for available computational infrastructures and tests show a speed-up factor of 1.70 for each additional GPU. This paves the way for the online application of image based reconstruction methods during clinical examinations. The source code for the proposed approach is publicly available.

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Ultrasound confidence maps using random walks

Karamalis

Wein

Klein

et al. 2012

Medical Image Analysis

134

115

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Automatic registration of portal images and volumetric CT for patient positioning in radiation therapy

Khamene

Bloch

Wein

et al. 2006

Medical Image Analysis

109

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3D freehand ultrasound without external tracking using deep learning

Prevost¹,

Salehi

Jagoda³

et al. 2018

Medical Image Analysis

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Automatic ultrasound–MRI registration for neurosurgery using the 2D and 3D LC2 Metric

Fuerst

Wein²,

Müller

et al. 2014

Medical Image Analysis

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Simulation and Fully Automatic Multimodal Registration of Medical Ultrasound

Wein

Khamene

Clevert

et al. 2007

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Abstract. The fusion of 3D freehand ultrasound with CT and CTA has benefits for a variety of clinical applications, however a lot of manual work is usually required for correct registration. We developed new methods that allow one to simulate medical ultrasound from CT in real-time, reproducing the majority of ultrasonic imaging effects. The second novelty is a robust similarity measure that assesses the correlation of a combination of multiple signals extracted from CT with ultrasound, without knowing the influence of each signal. This serves as the foundation of a fully automatic registration, which aligns a freehand ultrasound sweep with the corresponding 3D modality using a rigid or an affine transformation model, without any manual interaction. We also present the used initialization, global and local parameter optimization schemes, and validation on abdominal CTA and ultrasound imaging of 10 patients.

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Postprandial Insulin Lispro: A new therapeutic option for type 1 diabetic patients

Schernthaner

Wein²,

Sandholzer³

et al. 1998

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Wolfgang Wein

Automatic CT-ultrasound registration for diagnostic imaging and image-guided intervention

Fast Volume Reconstruction From Motion Corrupted Stacks of 2D Slices

Ultrasound confidence maps using random walks

Automatic registration of portal images and volumetric CT for patient positioning in radiation therapy

3D freehand ultrasound without external tracking using deep learning

Automatic ultrasound–MRI registration for neurosurgery using the 2D and 3D LC2 Metric

Simulation and Fully Automatic Multimodal Registration of Medical Ultrasound

Postprandial Insulin Lispro: A new therapeutic option for type 1 diabetic patients

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