2023
DOI: 10.1002/mrm.29696
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Deuterium echo‐planar spectroscopic imaging (EPSI) in the human liver in vivo at 7 T

Abstract: To demonstrate the feasibility of deuterium echo-planar spectroscopic imaging (EPSI) to accelerate 3D deuterium metabolic imaging in the human liver at 7 T. Methods: A deuterium EPSI sequence, featuring a Hamming-weighted k-space acquisition pattern for the phase-encoding directions, was implemented.Three-dimensional deuterium EPSI and conventional MRSI were performed on a water/acetone phantom and in vivo in the human liver at natural abundance. Moreover, in vivo deuterium EPSI measurements were acquired afte… Show more

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Cited by 9 publications
(3 citation statements)
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“…The most substantial difference in intensity is observed for the TMA peak at 3.2 ppm, which appears to be even larger in this subject than expected based on T 2 times from the literature 21 ( T 2 = 32 ms, expected 23% signal loss from 6 versus 14 ms T E ). Comparison of VAPOR WS with water elimination by MC indicates that water signal removal was usually more effective with VAPOR, but that the water reference acquired with MC can be useful for compensation of motion‐induced phase and frequency variation, though this feature is mostly relevant for very small VOIs 49–60 and here for subjects with low fat content. Comparison of spectra acquired in breath‐holds versus those obtained with rhythmic breathing indicates that both acquisition schemes are viable, but that the latter provided more stable and robust results in most subjects.…”
Section: Resultsmentioning
confidence: 98%
See 1 more Smart Citation
“…The most substantial difference in intensity is observed for the TMA peak at 3.2 ppm, which appears to be even larger in this subject than expected based on T 2 times from the literature 21 ( T 2 = 32 ms, expected 23% signal loss from 6 versus 14 ms T E ). Comparison of VAPOR WS with water elimination by MC indicates that water signal removal was usually more effective with VAPOR, but that the water reference acquired with MC can be useful for compensation of motion‐induced phase and frequency variation, though this feature is mostly relevant for very small VOIs 49–60 and here for subjects with low fat content. Comparison of spectra acquired in breath‐holds versus those obtained with rhythmic breathing indicates that both acquisition schemes are viable, but that the latter provided more stable and robust results in most subjects.…”
Section: Resultsmentioning
confidence: 98%
“…It even allowed depth resolved Glc dynamics to be obtained. However, without doubt, use of an echo‐planar readout for one spatial direction would be beneficial 56 to increase either the temporal or spatial resolution, which would be particularly important to define a portal vein input function for metabolic modeling. At the current resolution it is not possible to clearly distinguish between hepatocellular and vascular glucose contributions on a macroscopic, let alone mesoscopic, scale.…”
Section: Discussionmentioning
confidence: 99%
“…4,5 Therefore, several approaches exist that try to accelerate the MRSI acquisition, such as by shortening or removing suppression pulses and reducing the TR, 6,7 applying parallel-imaging methods, [8][9][10] or by using simultaneous spatial-spectral encoding (SSE). [11][12][13][14][15] SSE accelerates MRSI by applying specific gradient waveforms during the FID, which increases the spatial encoding per TR. However, the time needed for this spatial encoding limits the spectral bandwidth of SSE methods when compared with phase-encoded MRSI and other acceleration approaches.…”
Section: Introductionmentioning
confidence: 99%