| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5491457 | Magnetic Resonance Imaging | 2017 | 27 Pages |
Abstract
DfMRI and ADC-fMRI acquisition at 3Â T could be easily post-processed with common neuro-imaging software. DfMRI and ADC-fMRI activation volumes were significantly smaller than those obtained with SE-BOLD. ADC-fMRI activations were more precisely localized in V1 than those of SE-BOLD-fMRI. This validated the increased capability of ADC-fMRI compared to BOLD to enhance the precision of localizing an fMRI activation in the cyto-architectural zone V1, thereby justifying the use of ADC-fMRI for neuro-scientific studies.
Keywords
Intra-voxel incoherent motiongradient-echoEDDIDAMFGMNIIVIMESDFEATFWHMBOLDCytoarchitectonicSPMGRFVBAIFSADCCPMGICAVOICarr-Purcell-Meiboom-GillSpin-echoFunctional MRIMRIIndependent component analysisVoxel-based analysisMagnetic resonance imagingfMRIdiffusion-weightedvolume of interestFlameMagnetic field gradientsapparent diffusion coefficientfull width at half maximumgrey matterCytoarchitectureMontreal Neurological InstituteGaussian random fieldStatistical Parametric Mappingblood oxygen level-dependent
Related Topics
Physical Sciences and Engineering
Physics and Astronomy
Condensed Matter Physics
Authors
R. Nicolas, H. Gros-Dagnac, F. Aubry, P. Celsis,