J
Jürgen Hennig
Researcher at University of Freiburg
Publications - 495
Citations - 25555
Jürgen Hennig is an academic researcher from University of Freiburg. The author has contributed to research in topics: Magnetic resonance imaging & Imaging phantom. The author has an hindex of 77, co-authored 487 publications receiving 23604 citations. Previous affiliations of Jürgen Hennig include University Medical Center & German Cancer Research Center.
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RARE imaging: a fast imaging method for clinical MR.
TL;DR: Based on the principles of echo imaging, a method is proposed to acquire sufficient data for a 256 × 256 image in from 2 to 40s, and the signal amplitudes of structures with long T2 are nearly the same as those in a conventional 2D FT experiment.
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Ventral and dorsal pathways for language
Dorothee Saur,B. W. Kreher,Susanne Schnell,Dorothee Kümmerer,Philipp Kellmeyer,Magnus-Sebastian Vry,Roza M. Umarova,Mariacristina Musso,Volkmar Glauche,Stefanie Abel,Walter Huber,Michel Rijntjes,Jürgen Hennig,Cornelius Weiller +13 more
TL;DR: The function of the dorsal route, traditionally considered to be the major language pathway, is mainly restricted to sensory-motor mapping ofsound to articulation, whereas linguistic processing of sound to meaning requires temporofrontal interaction transmitted via the ventral route.
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Quantitative 2D and 3D phase contrast MRI: optimized analysis of blood flow and vessel wall parameters.
TL;DR: Initial results in a patient with atherosclerosis suggest the potential of the CINE phase contrast (PC)‐MRI quantification method for understanding the formation and progression of cardiovascular diseases.
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Multiecho imaging sequences with low refocusing flip angles
TL;DR: In this article, a simple algorithm is presented, which permits recognition of all echos occurring in periodic multipulse sequences, and a RARE experiment based on these principles delivers sufficient signal intensity even with small refocusing flip angles.
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Magnetic resonance imaging of freely moving objects: prospective real-time motion correction using an external optical motion tracking system.
TL;DR: A fully integrated method for prospective correction of arbitrary rigid body motion employing an external motion tracking device is demonstrated for the first time and the accuracy of motion correction is improved compared to previous approaches.