Benjamin Robert
Siemens
19 Papers
161 Citations
Benjamin Robert is an academic researcher from Siemens. The author has contributed to research in topics: Imaging phantom & Acoustic radiation force. The author has an hindex of 10, co-authored 19 publications. Previous affiliations of Benjamin Robert include ESPCI ParisTech.
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Papers
Application of DENSE-MR-elastography to the human heart.
TL;DR: In this article, a new sequence is derived from the displacement encoding with stimulated echoes (DENSE) sequence, which is more sensitive to displacement than fractional encoding of harmonic motions, and its spectral specificity is equivalent to conventional MRE sequences.
In vivo free-breathing DTI and IVIM of the whole human heart using a real-time slice-followed SE-EPI navigator-based sequence: A reproducibility study in healthy volunteers.
Kevin Moulin,Kevin Moulin,Pierre Croisille,Pierre Croisille,Thorsten Feiweier,Bénédicte M. A. Delattre,Hongjiang Wei,Benjamin Robert,Olivier Beuf,Magalie Viallon,Magalie Viallon +10 more
TL;DR: The slice‐following DWI SE‐EPI sequence is a promising solution for clinical implementation, offering a robust improved workflow for further evaluation of DWI in cardiology.
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Parallel‐transmission‐enabled three‐dimensional T2‐weighted imaging of the human brain at 7 Tesla
Aurélien Massire,Alexandre Vignaud,Benjamin Robert,Denis Le Bihan,Nicolas Boulant,Alexis Amadon +5 more
TL;DR: It is demonstrated that the adopted formalism based on optimal control, combined with the kT‐point method, successfully enables three‐dimensional T2‐weighted brain imaging at 7T devoid of artifacts resulting from B1+ inhomogeneity.
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Application of DENSE MR-Elastography to the human heart: first in vivo results
Benjamin Robert,Ralph Sinkus,Mathias Fink +2 more
- 01 Jan 2009
TL;DR: A new sequence is derived from the so‐called displacement encoding with stimulated echoes (DENSE) sequence that is more sensitive to displacement than fractional encoding of harmonic motions, and its spectral specificity is equivalent to conventional MRE sequences.
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Magnetization transfer from inhomogeneously broadened lines (ihMT): Improved imaging strategy for spinal cord applications
Olivier M. Girard,Virginie Callot,Valentin H. Prevost,Benjamin Robert,Manuel Taso,Guilherme Ribeiro,Gopal Varma,Novena A. Rangwala,David C. Alsop,Guillaume Duhamel +9 more
TL;DR: The current report presents a strategy for cervical spinal cord imaging free of cerebrospinal fluid (CSF) pulsatility artifacts.
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