Paul Steiner
University of Zurich
25 Papers
561 Citations
Paul Steiner is an academic researcher from University of Zurich. The author has contributed to research in topics: Magnetic resonance imaging & Medicine. The author has an hindex of 14, co-authored 25 publications.
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Papers
Dynamic MR defecography with a superconducting, open-configuration MR system.
A W Schoenenberger,Jörg F. Debatin,I Guldenschuh,Thomas F. Hany,Paul Steiner,Gabriel P. Krestin +5 more
TL;DR: In this paper, the authors evaluated dynamic magnetic resonance (MR) defecography performed with a superconducting, open-configuration system in diagnosis of defecation disorders, and the results showed that the rectal walls were well demonstrated on the MR images, permitting visualization of intu...
134
Preliminary assessment of three-dimensional magnetic resonance imaging for various colonic disorders.
TL;DR: The potential of three-dimensional colonic MRI to provide accurate, minimally invasive, cost-effective polyp screening, as well as comprehensive colonic tumour staging, warrants further investigation.
123
Detection of mass lesions with MR colonography: preliminary report.
TL;DR: Three-dimensional MR colonography provided virtual colonoscopic viewing and helped detection of colonic polyps.
99
Contrast‐enhanced, ultrafast 3d pulmonary MR angiography in a single breath‐hold: Initial assessment of imaging performance
Paul Steiner,Graeme C. McKinnon,Ben Romanowski,Susanne C. Goehde,Thomas F. Hany,Jörg F. Debatin +5 more
TL;DR: An ultrafast three‐dimensional sequence was developed, enabling the acquisition of 44 contiguous 2.0‐to 2.2‐mm thin sections, during intravenous application of paramagnetic contrast, in a single breath‐hold, and revealed excellent image quality and near complete visualization of central and segmental, as well as 81% of subsegmental, pulmonary arteries.
72
Monitoring of radio frequency tissue ablation in an interventional magnetic resonance environment. Preliminary ex vivo and in vivo results.
TL;DR: Magnetic resonance monitoring of RF effects is feasible both ex vivo as well as in vivo using temperature-sensitive sequences in an open-configuration MR environment.
59