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Deep learning based synthetic CT skull for transcranial MRgFUS interventions using 3D V-net–Transfer learning implications

Deep learning for synthesizing apparent diffusion coefficient maps of the prostate: A tentative study based on generative adversarial networks

Deep Learning-based Adaptive Image Combination for Signal-Dropout Suppression in Liver DWI

Diffusion-weighted Imaging of Cervical Cancer Using Reduced-field-of-view, Readout-segmented, and Single-shot Echo-planar Imaging at 3T

Diffusion-Weighted Imaging with Integrated Slice-Specific Dynamic-Shimmingfor Rectal Cancer Detection and Characterization

Free-breathing oxygen-enhanced pulmonary imaging with self-gated stack-of-spirals ultra-short echo time sequence at 0.55T

Motion Correction of Abdominal Diffusion-Weighted MRI Using Internal Motion Vectors

Motion-insensitive DTI of Kidney using Prospective Acquisition Motion Correction Triggering

Motion-robust T2-weighted TSE imaging in the prostate by performing non-rigid registration between averages

Author:Katja Bogner  Elisabeth Weiland  Thomas Benkert  Karl Engelhard  

Session Type:Digital Poster  

Session Date:Monday, 17 May 2021  

Topic:Motion Correction Strategies  

Session Name:Motion: Brain & Body  

Program Number:1384  

Room Session:Concurrent 1  

Institution:Martha-Maria Hospital  Siemens Healthcare GmbH  

MP-Dixon-GRASP: Magnetization-Prepared Multiecho GRASP MRI for Free-Breathing Fat/Water-Separated 3D T1 Mapping

Optimized 3D spiral ultra-short echo time free-breathing pulmonary imaging on a high-performance low-field 0.55T scanner

Partial Fourier Reconstruction in Liver DWI using a Recurrent Convolutional Network

Author:Fasil Gadjimuradov  Thomas Benkert  Marcel Nickel  Andreas Maier  

Session Type:Oral  

Session Date:Tuesday, 18 May 2021  

Topic:Liver  

Session Name:Liver  

Program Number:0315  

Room Session:Concurrent 5  

Institution:Friedrich-Alexander-Universität Erlangen-Nürnberg  Siemens Healthcare GmbH  

UTE-MRI complements CT in bone characterization for improved proton therapy dose calculation