Probabilistic diffusion tractography with multiple fibre orientations: What can we gain?
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Implication of the anterior commissure in the allocation of attention to actionGray matter axonal connectivity mapsAssociations between Proprioceptive Neural Pathway Structural Connectivity and Balance in People with Multiple SclerosisAutism and sensory processing disorders: shared white matter disruption in sensory pathways but divergent connectivity in social-emotional pathwaysNoninvasive functional and structural connectivity mapping of the human thalamocortical systemSPHERE: SPherical Harmonic Elastic REgistration of HARDI dataCerebellothalamocortical connectivity regulates penetrance in dystoniaMapping anatomical connectivity patterns of human cerebral cortex using in vivo diffusion tensor imaging tractographyThe brain in chronic CRPS pain: abnormal gray-white matter interactions in emotional and autonomic regionsDiffusion Tractography in Deep Brain Stimulation Surgery: A ReviewToward Developmental Connectomics of the Human BrainStructural connectivity analyses in motor recovery research after strokeRecent Progress in Magnetic Resonance Imaging of the Embryonic and Neonatal Mouse BrainDiffusion tensor imaging for understanding brain development in early lifeDiffusion MRI at 25: exploring brain tissue structure and functionThe role of tissue microstructure and water exchange in biophysical modelling of diffusion in white matterUnraveling the secrets of white matter--bridging the gap between cellular, animal and human imaging studiesMulti-fiber tractography visualizations for diffusion MRI dataHuman thalamus regulates cortical activity via spatially specific and structurally constrained phase-amplitude coupling.Development of human brain structural networks through infancy and childhoodA comparative analysis of mouse and human medial geniculate nucleus connectivity: a DTI and anterograde tracing studyAbnormal topological organization of the white matter network in Mandarin speakers with congenital amusiaReduced Volume of the Arcuate Fasciculus in Adults with High-Functioning Autism Spectrum ConditionsDecreased Cerebellar-Orbitofrontal Connectivity Correlates with Stuttering Severity: Whole-Brain Functional and Structural Connectivity Associations with Persistent Developmental Stuttering.A brain network processing the age of facesStrengths and limitations of tractography methods to identify the optic radiation for epilepsy surgeryPathways to seeing music: enhanced structural connectivity in colored-music synesthesiaA multimodal approach for determining brain networks by jointly modeling functional and structural connectivityRelating structure and function in the human brain: relative contributions of anatomy, stationary dynamics, and non-stationaritiesWhite Matter Connectivity of the Thalamus Delineates the Functional Architecture of Competing Thalamocortical SystemsVirtual dissection and comparative connectivity of the superior longitudinal fasciculus in chimpanzees and humansAutomatic analysis (aa): efficient neuroimaging workflows and parallel processing using Matlab and XMLStudy protocol: The Whitehall II imaging sub-studyThe WU-Minn Human Connectome Project: an overviewSpeech-induced striatal dopamine release is left lateralized and coupled to functional striatal circuits in healthy humans: a combined PET, fMRI and DTI studyPANDA: a pipeline toolbox for analyzing brain diffusion imagesThe Claustrum and Insula in Microcebus murinus: A High Resolution Diffusion Imaging StudyContinuity, divergence, and the evolution of brain language pathwaysMultivariate models of inter-subject anatomical variabilityThalamo-frontal white matter alterations in chronic schizophrenia: a quantitative diffusion tractography study
P2860
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P2860
Probabilistic diffusion tractography with multiple fibre orientations: What can we gain?
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Probabilistic diffusion tractography with multiple fibre orientations: What can we gain?
@en
Probabilistic diffusion tractography with multiple fibre orientations: What can we gain?
@nl
type
label
Probabilistic diffusion tractography with multiple fibre orientations: What can we gain?
@en
Probabilistic diffusion tractography with multiple fibre orientations: What can we gain?
@nl
prefLabel
Probabilistic diffusion tractography with multiple fibre orientations: What can we gain?
@en
Probabilistic diffusion tractography with multiple fibre orientations: What can we gain?
@nl
P2093
P1433
P1476
Probabilistic diffusion tractography with multiple fibre orientations: What can we gain?
@en
P2093
H Johansen Berg
M F S Rushworth
M W Woolrich
T E J Behrens
P304
P356
10.1016/J.NEUROIMAGE.2006.09.018
P407
P50
P577
2006-10-27T00:00:00Z