2009
DOI: 10.1002/mrm.21999
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Time‐efficient fast spin echo imaging at 4.7 T with low refocusing angles

Abstract: An implementation of fast spin echo at 4.7 T designed for versatile and time-efficient T 2 -weighted imaging of the human brain is presented. Reduced refocusing angles (␣ < 180°) were employed to overcome specific absorption rate (SAR) constraints and their effects on image quality assessed. Image intensity and tissue contrast variations from heterogeneous RF transmit fields and incidental magnetization transfer effects were investigated at reduced refocusing angles. We found that intraslice signal variations … Show more

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Cited by 13 publications
(14 citation statements)
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References 30 publications
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“…The ability of the stimulated echo‐corrected method to perform well in the presence of low refocusing pulse angles also presents the opportunity to intentionally reduce the applied flip angle, providing a simple method for reducing the specific absorption rate of multiecho scans while not sacrificing accuracy. Lebel has demonstrated the viability of this method using fast spin echo at high field strength (4.7 T) (25).…”
Section: Discussionmentioning
confidence: 99%
“…The ability of the stimulated echo‐corrected method to perform well in the presence of low refocusing pulse angles also presents the opportunity to intentionally reduce the applied flip angle, providing a simple method for reducing the specific absorption rate of multiecho scans while not sacrificing accuracy. Lebel has demonstrated the viability of this method using fast spin echo at high field strength (4.7 T) (25).…”
Section: Discussionmentioning
confidence: 99%
“…RF heating scales with the square of the magnetic field and the square of the RF pulse amplitude. To control RF heating at 4.7T, the RF refocusing pulses were lengthened in time and reduced in flip angle by using a variable refocusing train (21, 27). For this implementation, we used 6‐ms pulse duration refocusing pulses (480 Hz pulse bandwidth) with variable flip angle trains of 7 or 8 echoes as listed.…”
Section: Discussionmentioning
confidence: 99%
“…Certainly, it is well recognized that higher spatial resolution, in particular thinner slices, will result in higher lesion counts (20). Recently several groups (21–24) have demonstrated high definition T2WFSE of the human brain at 4.7T. This 4.7T field strength is also well positioned for excellent susceptibility weighting.…”
mentioning
confidence: 97%
“…T 2 distributions were calculated for every voxel in the T 2 relaxation data set using a modified Extended Phase Graph algorithm [35][36][37] combined with regularized NNLS [38] and flip angle optimization. MWF was defined as the area under the T 2 distribution from 10-40 ms divided by the total area underneath the distribution.…”
Section: Discussionmentioning
confidence: 99%