Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6028537 | NeuroImage | 2014 | 13 Pages |
Abstract
The auditory tracts in the human brain connect the inferior colliculus (IC) and medial geniculate body (MGB) to various components of the auditory cortex (AC). While in non-human primates and in humans, the auditory system is differentiated in core, belt and parabelt areas, the correspondence between these areas and anatomical landmarks on the human superior temporal gyri is not straightforward, and at present not completely understood. However it is not controversial that there is a hierarchical organization of auditory stimuli processing in the auditory system. The aims of this study were to demonstrate that it is possible to non-invasively and robustly identify auditory projections between the auditory thalamus/brainstem and different functional levels of auditory analysis in the cortex of human subjects in vivo combining functional magnetic resonance imaging (fMRI) with diffusion MRI, and to investigate the possibility of differentiating between different components of the auditory pathways (e.g. projections to areas responsible for sound, pitch and melody processing). We hypothesized that the major limitation in the identification of the auditory pathways is the known problem of crossing fibres and addressed this issue acquiring DTI with b-values higher than commonly used and adopting a multi-fibre ball-and-stick analysis model combined with probabilistic tractography. Fourteen healthy subjects were studied. Auditory areas were localized functionally using an established hierarchical pitch processing fMRI paradigm. Together fMRI and diffusion MRI allowed the successful identification of tracts connecting IC with AC in 64 to 86% of hemispheres and left sound areas with homologous areas in the right hemisphere in 86% of hemispheres. The identified tracts corresponded closely with a three-dimensional stereotaxic atlas based on postmortem data. The findings have both neuroscientific and clinical implications for delineation of the human auditory system in vivo.
Keywords
MGBFDRCoGDSIIRNStgCSDBOLDDTIMNIEPIspherical deconvolutionConstrained spherical deconvolutionMRImedial geniculate bodyTractographyecho planar imagingdiffusion tensor imagingMagnetic resonance imagingdiffusion spectrum imagingfunctional magnetic resonance imagingfMRIsubstantia nigraPositron emission tomographysuperior temporal gyrusblood oxygenation level dependentHeschl's gyrusAuditory Cortexamplitude modulationCentre of gravityMontreal Neurological Institutefalse discovery ratePASPETInferior colliculus
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Authors
Faiza Javad, Jason D. Warren, Caroline Micallef, John S. Thornton, Xavier Golay, Tarek Yousry, Laura Mancini,