Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6029871 | NeuroImage | 2013 | 12 Pages |
Abstract
⺠We describe the technique of track-weighted (TW) functional connectivity (FC). ⺠TW-FC combines structural and functional information into a single quantitative map. ⺠TW-FC maps show high intensity in structures connecting the nodes of a FC network. ⺠Map intensity reflects FC associated with structural connections traversing a voxel. ⺠TW-FC should provide a very useful new addition for the study of brain connectivity.
Keywords
UncTDICingulumEPIMPFCDWICSDIPLALICITGMCPGCCCGHTapetumFODILFIFOFVBAiFOD2DMNCorpus callosumICASLFFWHMSCCPCCBOLDMTLSCPTWICStFunctional connectivityConstrained spherical deconvolutionstructural connectivitysuperior cerebellar peduncleanterior limb of the internal capsulePosterior limb of the internal capsuleblood oxygenation level-dependentOptic radiationIndependent component analysisVoxel-based analysisinferior fronto-occipital fasciculusEcho-planar imagingtrack-density imagingDiffusion MRIfibre orientation distributiongenu of the corpus callosumcorticospinal tractecho timeRepetition timeMiddle cerebellar pedunclecerebral peduncledefault mode networkBrain networksTAPfull-width at half-maximumsuperior longitudinal fasciculusinferior longitudinal fasciculusfornixFibre-trackingInferior temporal gyrusmedial prefrontal cortexMesial temporal lobePLICanterior commissureexternal capsule
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Authors
Fernando Calamante, Richard A.J. Masterton, Jacques-Donald Tournier, Robert E. Smith, Lisa Willats, David Raffelt, Alan Connelly,