Ontology highlight
ABSTRACT: Objectives
To demonstrate the image quality that can be obtained for multiple contrasts using ultra-high resolution MRI (highest nominal resolution: 350??m isotropic) at 7T using appropriate motion-correction.Materials and methods
An MRI-based fat-excitation motion navigator (which requires no additional hardware) was incorporated into T1-weighted (MP2RAGE, 350??m nominal isotropic resolution, total scan time 124 mins over 2 sessions. The MP2RAGE also provides quantitative T1-maps), 3D-TSE (380??m nominal isotropic resolution, total scan time 58 mins) and T2*-weighted protocols (3D-GRE, 380 ?m nominal isotropic resolution, total scan time 42 mins) on a 7T MR system. Images from each contrast are presented from a single healthy adult male volunteer (34 years) for direct comparison. The subject provided written consent in accordance with the local review board.Results
Images of various brain structures are revealed at unprecedented quality for in-vivo MRI. The presented images permit, for example, to delimit the internal structure of the basal ganglia and thalamus. The single digitationes of the hippocampus are visible, and the gyrus dentatus can be visualized. Intracortical contrast was also observed in the neocortex, including the stria of Gennari of the primary visual cortex.Conclusions
Appropriate motion-correction allows MRI scans to be performed with extended scan times enabling exceptionally high resolution scans with high image quality, with the use of a 7T scanner allowing large brain coverage for 350-380 ?m isotropic voxels with total scan times for each contrast ranging from 42 to 124 minutes.
SUBMITTER: Federau C
PROVIDER: S-EPMC4861298 | biostudies-literature | 2016
REPOSITORIES: biostudies-literature
Federau Christian C Gallichan Daniel D
PloS one 20160509 5
<h4>Objectives</h4>To demonstrate the image quality that can be obtained for multiple contrasts using ultra-high resolution MRI (highest nominal resolution: 350 μm isotropic) at 7T using appropriate motion-correction.<h4>Materials and methods</h4>An MRI-based fat-excitation motion navigator (which requires no additional hardware) was incorporated into T1-weighted (MP2RAGE, 350 μm nominal isotropic resolution, total scan time 124 mins over 2 sessions. The MP2RAGE also provides quantitative T1-map ...[more]