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Atlas‐based automated positioning of outer volume suppression slices in short‐echo time 3D MR spectroscopic imaging of the human brain
Author(s) -
Yung KaungTi,
Zheng Weili,
Zhao Chenguang,
MartínezRamón Manel,
van der Kouwe André,
Posse Stefan
Publication year - 2011
Publication title -
magnetic resonance in medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.696
H-Index - 225
eISSN - 1522-2594
pISSN - 0740-3194
DOI - 10.1002/mrm.22887
Subject(s) - computer science , atlas (anatomy) , voxel , magnetic resonance imaging , imaging phantom , nuclear medicine , nuclear magnetic resonance , artificial intelligence , computer vision , physics , medicine , radiology , anatomy
Spatial suppression of peripheral lipid‐containing regions in volumetric MR spectroscopic imaging of the human brain requires placing large numbers of outer volume suppression (OVS) slices, which is time‐consuming, prone to operator error and may introduce subject‐dependent variability in volume coverage. We developed a novel, computationally efficient atlas‐based approach for automated positioning of up to 16 OVS slices and the MR spectroscopic imaging slab. Standardized positions in Montreal Neurological Institute atlas space were established offline using a recently developed iterative optimization procedure. During the scanning session, positions in subject space were computed using affine transformation of standardized positions in Montreal Neurological Institute space. Offline analysis using magnetization prepared rapid gradient echo scans from 11 subjects demonstrated reliable OVS placement, comparable with but faster than iterative placement in subject space. This atlas‐based method was further validated in 14 subjects using 3D short‐echo time proton‐echo‐planar‐spectroscopic‐imaging at 3 T. Comparison of manual and automatic placement using 8 OVS slices demonstrated consistent MR spectroscopic imaging volume selection and comparable spectral quality with similar degree of lipid suppression and number of usable voxels. Automated positioning of 16 OVS slices enabled larger volume coverage, while maintaining similar spectral quality and lipid suppression. Atlas‐based automatic prescription of short echo time MR spectroscopic imaging is expected to be advantageous for longitudinal and cross‐sectional studies. Magn Reson Med, 2011. © 2011 Wiley‐Liss, Inc.