Identifying the human optic radiation using diffusion imaging and fiber tractography
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Reconstruction and dissection of the entire human visual pathway using diffusion tensor MRIEpilepsy surgery, vision, and driving: what has surgery taught us and could modern imaging reduce the risk of visual deficits?Strengths and limitations of tractography methods to identify the optic radiation for epilepsy surgeryPreservation of the optic radiations based on comparative analysis of diffusion tensor imaging tractography and anatomical dissection.Optic radiation structure and anatomy in the normally developing brain determined using diffusion MRI and tractography.Distinguishing and quantification of the human visual pathways using high-spatial-resolution diffusion tensor tractography.The visual white matter: The application of diffusion MRI and fiber tractography to vision scienceImaging retinotopic maps in the human brain.Bound pool fractions complement diffusion measures to describe white matter micro and macrostructure.Optimization of tractography of the optic radiations.Axonal loss of retinal neurons in multiple sclerosis associated with optic radiation lesionsEvaluating contextual processing in diffusion MRI: application to optic radiation reconstruction for epilepsy surgery.Quantitative volumetric analysis of the optic radiation in the normal human brain using diffusion tensor magnetic resonance imaging-based tractography.Cortical maps and white matter tracts following long period of visual deprivation and retinal image restorationDissociable connectivity within human angular gyrus and intraparietal sulcus: evidence from functional and structural connectivityStructural brain atlases: design, rationale, and applications in normal and pathological cohorts.White matter consequences of retinal receptor and ganglion cell damage.Optic radiation fiber tractography in glioma patients based on high angular resolution diffusion imaging with compressed sensing compared with diffusion tensor imaging - initial experienceMagnetic resonance diffusion tensor imaging-based evaluation of optic-radiation shape and position in meningiomaDecoding diffusivity in multiple sclerosis: analysis of optic radiation lesional and non-lesional white matter.DTI of the visual pathway - white matter tracts and cerebral lesions.Disrupted fornix integrity in children with chromosome 22q11.2 deletion syndromeAnatomic and electro-physiologic connectivity of the language system: a combined DTI-CCEP studyDiffusion tensor imaging tractography of the optic radiation for epilepsy surgical planning: a comparison of two methods.Probabilistic MRI tractography of the optic radiation using constrained spherical deconvolution: a feasibility studyVisual pathway study using in vivo diffusion tensor imaging tractography to complement classic anatomy.Improved Framework for Tractography Reconstruction of the Optic Radiation.Ensemble TractographyProgressive Injury in Chronic Multiple Sclerosis Lesions Is Gender-Specific: A DTI Study.Extrastriate projections in human optic radiation revealed by fMRI-informed tractography.Semi-Automatic Segmentation of Optic Radiations and LGN, and Their Relationship to EEG Alpha WavesMagnetic resonance diffusion tensor imaging and diffusion tensor tractography of human visual pathway.Optic Radiation Tractography and Visual Field Deficits in Laser Interstitial Thermal Therapy for Amygdalohippocampectomy in Patients with Mesial Temporal Lobe Epilepsy.Connectome imaging for mapping human brain pathwaysAutomated retinofugal visual pathway reconstruction with multi-shell HARDI and FOD-based analysis.Direct optic nerve pulvinar connections defined by diffusion MR tractography in humans: implications for photophobiaWhite matter alterations at 33-year follow-up in adults with childhood attention-deficit/hyperactivity disorderDefining Meyer's loop-temporal lobe resections, visual field deficits and diffusion tensor tractography.White-matter tract abnormalities and antisocial behavior: A systematic review of diffusion tensor imaging studies across development.Afferent visual pathways in multiple sclerosis: a review.
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Identifying the human optic radiation using diffusion imaging and fiber tractography
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 17 December 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Identifying the human optic radiation using diffusion imaging and fiber tractography
@en
Identifying the human optic radiation using diffusion imaging and fiber tractography.
@nl
type
label
Identifying the human optic radiation using diffusion imaging and fiber tractography
@en
Identifying the human optic radiation using diffusion imaging and fiber tractography.
@nl
prefLabel
Identifying the human optic radiation using diffusion imaging and fiber tractography
@en
Identifying the human optic radiation using diffusion imaging and fiber tractography.
@nl
P2093
P2860
P356
P1433
P1476
Identifying the human optic radiation using diffusion imaging and fiber tractography
@en
P2093
Anthony J Sherbondy
Brian A Wandell
Robert F Dougherty
Sandy Napel
P2860
P304
P356
10.1167/8.10.12
P577
2008-12-17T00:00:00Z