2017
DOI: 10.1002/nbm.3789
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Nuclear magnetic relaxation dispersion of murine tissue for development of T1 (R1) dispersion contrast imaging

Abstract: This study quantified the spin-lattice relaxation rate (R 1 ) dispersion of murine tissues from 0.24 mT to 3 T. A combination of ex vivo and in vivo spin-lattice relaxation rate measurements were acquired for murine tissue. Selected brain, liver, kidney, muscle, and fat tissues were excised and R 1 dispersion profiles were acquired from 0.24 mT to 1.0 T at 37°C, using a fast field-cycling MR (FFC-MR) relaxometer. In vivo R 1 dispersion profiles of mice were acquired from 1.26 T to 1.74 T at 37°C, using FFC-MRI… Show more

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Cited by 23 publications
(20 citation statements)
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“…[21] In our example, if any free (not protein-bound) GdL or GdL-Zn is present, it will be "silent" (see Figure 3c), as the NMRD curves of such small complexes show no dispersion at these fields. For contrasta gents exhibitingalarge DR 1 /DB 0 ,t his small tissue R 1 dispersion (e.g., À0.19 s À1 T À1 for murine musclet issue at 1.5 T) represents an egligible anatomical background signal.…”
mentioning
confidence: 82%
See 1 more Smart Citation
“…[21] In our example, if any free (not protein-bound) GdL or GdL-Zn is present, it will be "silent" (see Figure 3c), as the NMRD curves of such small complexes show no dispersion at these fields. For contrasta gents exhibitingalarge DR 1 /DB 0 ,t his small tissue R 1 dispersion (e.g., À0.19 s À1 T À1 for murine musclet issue at 1.5 T) represents an egligible anatomical background signal.…”
mentioning
confidence: 82%
“…For contrasta gents exhibitingalarge DR 1 /DB 0 ,t his small tissue R 1 dispersion (e.g., À0.19 s À1 T À1 for murine musclet issue at 1.5 T) represents an egligible anatomical background signal. [21] In our example, if any free (not protein-bound) GdL or GdL-Zn is present, it will be "silent" (see Figure 3c), as the NMRD curves of such small complexes show no dispersion at these fields. On the other hand, the binding of GdL to HSA in the absence of Zn 2 + entails ad ispersion (background signal) that cannotb es uppressedi nt he FFC-MR image.…”
mentioning
confidence: 82%
“…This leads to an improved target specificity by exploiting image contrast based on the increased dR1/dB0 of the bound CA instead of the absolute difference of the relaxation rate at a fixed magnetic field. Therefore, the dreMR image shows only contrast arising from the bound CA and supresses contrast from the anatomical background as well as from the unbound agent, which has been recently shown by in-vivo experiments with mice [6]. Hoelscher et al [4] extended the dreMR theory to quantitative concentration measurements using a correction for finite ramp times during field-cycling and a compensation of field-cycling induced eddy current fields by dynamic reference phase modulation [7].…”
Section: Introductionmentioning
confidence: 91%
“…Magnetisation-prepared spin-echo pulse sequences have been commonly used in FFC-MRI to determine R 1 dispersion maps (e.g. in [15,30,31]); this has been adopted as it corresponds to the gold-standard way to measure R 1 . In the most general case, it comprises three phases between which the magnetic field B 0 is switched: polarisation, evolution and acquisition [11].…”
Section: Pulse Sequencesmentioning
confidence: 99%
“…In contrast to conventional spin echo sequences, in RARE imaging multiple lines of k-space are acquired within one TR interval instead of only one. Echo train lengths of up to 4 were used in studies by Ross et al [30] and Araya et al [31] without image degradation. This speed up by a factor of 4 reduces the acquisition time per image in our example from approximately 25 min to a reasonable 6 min.…”
Section: Pulse Sequencesmentioning
confidence: 99%