Journal Article10.1002/MRM.23184
Spectroscopic imaging using concentrically circular echo-planar trajectories in vivo.
TL;DR: The feasibility of using concentric k‐space trajectories is demonstrated, and the spatial profiles and representative spectra are compared with the standard echo‐planar spectroscopic imaging technique in a gray matter phantom containing metabolites at physiological concentrations and healthy human brain in vivo.
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Abstract: An alternative to the standard echo-planar spectroscopic imaging technique is presented, spectroscopic imaging using concentrically circular echo-planar trajectories (SI-CONCEPT). In contrast to the conventional chemical shift imaging data, the sampled data from each set of concentric rings were regridded into Cartesian space. Usage of concentric k-space trajectories has the advantage of requiring significantly reduced slew rates than echo-planar spectroscopic imaging, allowing for the collection of higher spectral bandwidths and opening the door for high-bandwidth echo-planar styled spectroscopic imaging at higher magnetic fields. Before two-dimensional spatial and one-dimensional spectral encoding, the volume of interest was localized using the standard point-resolved spectroscopy sequence. The feasibility of using concentric k-space trajectories is demonstrated, and the spatial profiles and representative spectra are compared with the standard echo-planar spectroscopic imaging technique in a gray matter phantom containing metabolites at physiological concentrations and healthy human brain in vivo. The symmetric nature of the concentric circles also reduces the number of required excitations for a given resolution by a factor of two. Possible artifacts and limitations are discussed. Magn Reson Med, 2011. © 2011 Wiley Periodicals, Inc.
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Advanced magnetic resonance spectroscopic neuroimaging: Experts' consensus recommendations
Andrew A. Maudsley,Ovidiu C. Andronesi,Peter B. Barker,Alberto Bizzi,Wolfgang Bogner,Anke Henning,Anke Henning,Sarah J. Nelson,Stefan Posse,Dikoma C. Shungu,Brian J. Soher +10 more
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Accelerated MR spectroscopic imaging-a review of current and emerging techniques.
TL;DR: This review highlights the developments of the last five years and puts them into the context of earlier MRSI acceleration techniques.
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(2 + 1)D-CAIPIRINHA accelerated MR spectroscopic imaging of the brain at 7T.
Bernhard Strasser,Michal Považan,Gilbert Hangel,Lukas Hingerl,Marek Chmelik,S. Gruber,S. Trattnig,Wolfgang Bogner +7 more
TL;DR: To compare a new parallel imaging method for multislice proton magnetic resonance spectroscopic imaging (1H‐MRSI), termed (2 + 1)D‐CAIPIRINHA, with two standard PI methods, two standard methods are compared at 7 Tesla.
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Density-weighted concentric circle trajectories for high resolution brain magnetic resonance spectroscopic imaging at 7T.
Lukas Hingerl,Wolfgang Bogner,Philipp Moser,Michal Považan,Gilbert Hangel,Eva Heckova,Stephan Gruber,Siegfried Trattnig,Bernhard Strasser +8 more
TL;DR: This study proposes an SNR‐efficient spatial‐spectral sampling scheme using concentric circle echo planar trajectories (CONCEPT), which was adapted to intrinsically acquire a Hamming‐weighted k‐space, thus termed density‐ Weighted‐CONCEPT, which minimizes voxel bleeding, while preserving an optimal SNR.
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Concentric rings K-space trajectory for hyperpolarized (13)C MR spectroscopic imaging.
TL;DR: To develop a robust and rapid imaging technique for hyperpolarized 13 C MR Spectroscopic Imaging and investigate its performance.
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