Radiofrequency bias correction of magnetization prepared rapid gradient echo mri at 7.0 tesla using an external reference in a sequential protocol
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Radiofrequency bias correction of magnetization prepared rapid gradient echo mri at 7.0 tesla using an external reference in a sequential protocol. / Olsson, Hampus; Novén, Mikael; Lätt, Jimmy; Wirestam, Ronnie; Helms, Gunther.
In: Tomography, Vol. 7, No. 3, 2021, p. 434-451.Research output: Contribution to journal › Journal article › Research › peer-review
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T1 - Radiofrequency bias correction of magnetization prepared rapid gradient echo mri at 7.0 tesla using an external reference in a sequential protocol
AU - Olsson, Hampus
AU - Novén, Mikael
AU - Lätt, Jimmy
AU - Wirestam, Ronnie
AU - Helms, Gunther
N1 - Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.
PY - 2021
Y1 - 2021
N2 - At field strengths of 7 T and above, T1-weighted imaging of human brain suffers increas-ingly from radiofrequency (RF) B1 inhomogeneities. The well-known MP2RAGE (magnetization prepared two rapid acquisition gradient echoes) sequence provides a solution but may not be readily available for all MR systems. Here, we describe the implementation and evaluation of a sequential protocol to obtain normalized magnetization prepared rapid gradient echo (MPRAGE) images at 0.7, 0.8, or 0.9-mm isotropic spatial resolution. Optimization focused on the reference gradient-recalled echo (GRE) that was used for normalization of the MPRAGE. A good compromise between white-gray matter contrast and the signal-to-noise ratio (SNR) was reached at a flip angle of 3◦ and total scan time was reduced by increasing the reference voxel size by a factor of 8 relative to the MPRAGE resolution. The average intra-subject coefficient-of-variation (CV) in segmented white matter (WM) was 7.9 ± 3.3% after normalization, compared to 20 ± 8.4% before. The corresponding inter-subject average CV in WM was 7.6 ± 7.6% and 13 ± 7.8%. Maps of T1 derived from forward signal modelling showed no obvious bias after correction by a separately acquired flip angle map. To conclude, a non-interleaved acquisition for normalization of MPRAGE offers a simple alternative to MP2RAGE to obtain semi-quantitative purely T1-weighted images. These images can be converted to T1 maps, analogously to the established MP2RAGE approach. Scan time can be reduced by increasing the reference voxel size which has only a miniscule effect on image quality.
AB - At field strengths of 7 T and above, T1-weighted imaging of human brain suffers increas-ingly from radiofrequency (RF) B1 inhomogeneities. The well-known MP2RAGE (magnetization prepared two rapid acquisition gradient echoes) sequence provides a solution but may not be readily available for all MR systems. Here, we describe the implementation and evaluation of a sequential protocol to obtain normalized magnetization prepared rapid gradient echo (MPRAGE) images at 0.7, 0.8, or 0.9-mm isotropic spatial resolution. Optimization focused on the reference gradient-recalled echo (GRE) that was used for normalization of the MPRAGE. A good compromise between white-gray matter contrast and the signal-to-noise ratio (SNR) was reached at a flip angle of 3◦ and total scan time was reduced by increasing the reference voxel size by a factor of 8 relative to the MPRAGE resolution. The average intra-subject coefficient-of-variation (CV) in segmented white matter (WM) was 7.9 ± 3.3% after normalization, compared to 20 ± 8.4% before. The corresponding inter-subject average CV in WM was 7.6 ± 7.6% and 13 ± 7.8%. Maps of T1 derived from forward signal modelling showed no obvious bias after correction by a separately acquired flip angle map. To conclude, a non-interleaved acquisition for normalization of MPRAGE offers a simple alternative to MP2RAGE to obtain semi-quantitative purely T1-weighted images. These images can be converted to T1 maps, analogously to the established MP2RAGE approach. Scan time can be reduced by increasing the reference voxel size which has only a miniscule effect on image quality.
KW - 7T
KW - B1
KW - Bias correction
KW - Intensity correction
KW - Longitudinal relaxation
KW - MP2RAGE
KW - MPRAGE
KW - T1
KW - T1-mapping
KW - Ultra-high field
U2 - 10.3390/tomography7030038
DO - 10.3390/tomography7030038
M3 - Journal article
C2 - 34564300
AN - SCOPUS:85115292423
VL - 7
SP - 434
EP - 451
JO - Tomography - A Journal for Imaging Research
JF - Tomography - A Journal for Imaging Research
SN - 2379-1381
IS - 3
ER -
ID: 305549726