Diffusion tensor imaging reveals white matter reorganization in early blind humans. - Wikidata - thesis-toulmin - TriplyDB

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

http://www.wikidata.org/entity/Q30548045

about

Altered anatomical network in early blindness revealed by diffusion tensor tractography Noninvasive functional and structural connectivity mapping of the human thalamocortical system Using magnetic resonance imaging to assess visual deficits: a review Neural pathways conveying novisual information to the visual cortex.Brain Plasticity in Blind Subjects Centralizes Beyond the Modal Cortices.Recruitment of occipital cortex during sensory substitution training linked to subjective experience of seeing in people with blindness.Occipital cortex of blind individuals is functionally coupled with executive control areas of frontal cortex.Neurochemical changes within human early blind occipital cortex.Morphometric changes of the corpus callosum in congenital blindness.Functional characteristics of auditory cortex in the blind Diffusion tensor imaging in children with unilateral hearing loss: a pilot study.Functional specialization for auditory-spatial processing in the occipital cortex of congenitally blind humans.Transcranial magnetic stimulation of the visual cortex induces somatotopically organized qualia in blind subjects.Orienting auditory spatial attention engages frontal eye fields and medial occipital cortex in congenitally blind humans Occipital cortical thickness predicts performance on pitch and musical tasks in blind individuals Sensitive and critical periods in visual sensory deprivation.Prevalence of increases in functional connectivity in visual, somatosensory and language areas in congenital blindness Functional connectivity of visual cortex in the blind follows retinotopic organization principles 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 science Just pretty pictures? What diffusion tractography can add in clinical neuroscience.Diffusion tensor analysis of temporal and extra-temporal lobe tracts in temporal lobe epilepsy.Canine and human visual cortex intact and responsive despite early retinal blindness from RPE65 mutation.Altered water diffusivity in cortical association tracts in children with early deprivation identified with Tract-Based Spatial Statistics (TBSS).What are the Effects of Severe Visual Impairment on the Cortical Organization and Connectivity of Primary Visual Cortex?Abnormal baseline brain activity in patients with pulsatile tinnitus: a resting-state FMRI study.Imaging retinotopic maps in the human brain.Diffusion tensor imaging detects early cerebral cortex abnormalities in neuronal architecture induced by bilateral neonatal enucleation: an experimental model in the ferret.Diffusion tractography and neuromotor outcome in very preterm children with white matter abnormalities.Functional neuroimaging to characterize visual system development in children with retinoblastoma.Reduction of Interhemispheric Functional Brain Connectivity in Early Blindness: A Resting-State fMRI Study Neuropathologic correlates for diffusion tensor imaging in postinfectious encephalopathy.Radial diffusivity in remote optic neuritis discriminates visual outcomes.Leber congenital amaurosis due to RPE65 mutations and its treatment with gene therapy Spatial language processing in the blind: evidence for a supramodal representation and cortical reorganization.Cortical maps and white matter tracts following long period of visual deprivation and retinal image restoration The development of visual areas depends differently on visual experience.Neural processing underlying tactile microspatial discrimination in the blind: a functional magnetic resonance imaging study.Neonatal enucleation during a critical period reduces the precision of cortico-cortical projections in visual cortex.Experience-related structural changes of degenerated occipital white matter in late-blind humans - a diffusion tensor imaging study.

P2860

Q21562351-9F880C24-966F-4AE8-9F5D-1E7986C3E23F Q24598815-29B13D0D-F24F-425C-846A-8DF1D796F047 Q26750521-25F0CFBB-7A89-42AA-932F-9467B1DE8C60 Q26866099-58F6583D-183E-4E26-BE59-E6866891700C Q27308467-1EFD1A1C-7C58-449D-8921-BA90658123C6 Q27324594-924D94AA-8156-4130-A822-026DCC6EF401 Q30372972-D2DA0C82-DF13-4D6D-90FC-F78282C68830 Q30408825-2EE885C2-3769-406A-B796-461EF3BD27F2 Q30429308-16C57617-0B14-45B0-B20C-C863B99A41C5 Q30435199-4113340E-F8A9-4B18-B1E9-6BD84DDA5396 Q30437210-3069CBD9-B2B5-4044-BD06-F3A3A4D923FE Q30474140-ACB00911-53B8-4B28-BDB6-826B73FCAE46 Q30540776-529099B1-4DAE-4D26-9792-80A5812661AD Q30545436-07496985-C20D-4A92-BFF4-1C57D6BC9345 Q30557276-6339F370-D32C-47A4-B3E4-3C360791C7AF Q30559851-41400E49-F300-4380-83DF-2377860002EB Q30656190-4129E9DC-9D0C-4B98-9E95-B0C1E8AF86FF Q30669852-EA224829-5071-4A1A-8CAC-24DA8B7DF459 Q30826466-7F851EDB-5780-4372-9775-1D5F764127F3 Q30839298-5DCBDB71-237A-4ECF-8179-9D86B11FF03B Q31055039-08CB9115-9363-41B1-B6E3-3CCEB9F2541C Q31153616-7BD1952A-6FC5-43A7-9C31-2ACF46757BD9 Q33288985-430DBE29-F83D-4084-9483-00B0C1BCCC21 Q33471950-FA3931B2-5BB2-4DD0-9DD5-DEBEE1243CEE Q33575262-BD09DE29-D99C-46C3-8859-E962DE81E3C5 Q33607925-D1127C8E-A7D1-48A5-8B2B-1E7577C3834D Q33652070-942DE3AF-5FAC-490D-AA93-32E9AB7AC1A8 Q33737400-AD5625E0-EFD3-4A22-8B56-AFDA916A17F1 Q33774188-118F82C3-7CDC-49B1-A231-3EB871BD66C1 Q33796330-9A0CAF22-BB54-405D-9033-3F31E2737726 Q33800843-257DCA18-7FDE-489B-91B7-AE1E5F293239 Q33868491-AFD4E0FA-7CCA-4C0E-9C2A-77BF90B1D5B7 Q33899862-44E2F04C-290E-40D7-BF9A-00FD7C569052 Q33992484-CB38AA5A-D283-4DA3-AFA2-8D9E737C4F3C Q34026033-07173429-38AC-4F71-83AC-0216F9DCD9E6 Q34168786-F717F16D-BB52-4E97-8E27-00095FC76F07 Q34545388-482836B3-FAAC-45D7-9BD1-86CCB8DA88DF Q34712185-91B6C081-F130-420B-8ED1-883F26B1C982 Q35162937-3F052C94-BD4D-450D-BB49-46112400CECC Q35242121-7D71DA0C-9275-4EA4-821C-01595C54B281

P2860

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

http://www.wikidata.org/entity/Q30548045

description

2005 nî lūn-bûn

@nan

2005 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2005 թվականի դեկտեմբերին հրատարակված գիտական հոդված

@hy

2005年の論文

@ja

2005年論文

@yue

2005年論文

@zh-hant

2005年論文

@zh-hk

2005年論文

@zh-mo

2005年論文

@zh-tw

2005年论文

@wuu

name

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

@ast

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

@en

type

label

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

@ast

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

@en

prefLabel

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

@ast

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

@en

P1433

Q30548045-6152A0E3-EA89-413B-A953-6A815E5B64E5

P1476

Q30548045-251E3F06-52AB-439E-A3D3-DE6E85816B0C

P2093

Q30548045-0CA2E01B-D412-430E-B77D-B773719F41C1

Q30548045-23C4F800-681D-48B0-BC36-615C5D56DDFF

Q30548045-5A3C2450-6B26-4F66-BFC6-0FE115A4C43B

Q30548045-6D6982B2-3499-4C15-B102-9748C33CAB65

Q30548045-9DECDAC5-3F49-4ED5-8569-AA31EBDE8FFE

Q30548045-A30CC059-BD69-4E2E-BE5C-8CC6CDF93EE9

P2860

Q30548045-01B8458D-6C22-4033-A9C0-B056E8FB0591

Q30548045-05975001-6B0D-43BB-8459-D379B626F342

Q30548045-0C77684B-982F-4B1D-82B5-9970226FE02E

Q30548045-110F1985-BFCA-4794-A87E-200696F4F2A2

Q30548045-18FFA028-E43B-4342-B6D9-DCBD890B26C5

Q30548045-1BCCC8E3-23C8-4083-9AA6-F724712C8D0D

Q30548045-1E7F6F8F-9D07-4211-AD1B-481542C51AC8

Q30548045-2100054E-1D82-4F6E-B075-2524BFB7B0C3

Q30548045-21581055-102E-498F-BA42-368E6C4C9BF9

Q30548045-25CB4FA1-F991-47E7-9E43-E7C04F1C54F2

P304

Q30548045-9B022782-8775-4807-9809-FE5E8320F4AF

P31

Q30548045-1973290A-9B95-459D-AEE6-E955EB37B76E

P356

Q30548045-3A9A97D8-C990-4340-A809-055CD921FB90

P433

Q30548045-735D8DE2-2873-440E-A804-8762E3AD0ECA

P478

Q30548045-328DEFFD-1A0C-4A0B-AC12-6534D135B30A

P577

Q30548045-F2485054-F273-46D0-A3AF-18D523A84BEB

P698

Q30548045-C7E83B70-3D88-4C65-A019-926D0D2EEFEE

P921

Q30548045-4657C6BE-C0A2-4069-B95C-69B2AB5F74F6

Q30548045-D0D7E03C-B304-4EB1-B331-F17CBA6EAEE0

P932

Q30548045-60E2BDB5-241A-4ED5-BD9E-0705E107A42B

P356

P1433

Cerebral Cortex

P1476

Diffusion tensor imaging reveals white matter reorganization in early blind humans.

@en

P2093

A A Epstein

http://www.w3.org/2001/XMLSchema#string

A Z Snyder

http://www.w3.org/2001/XMLSchema#string

D G McLaren

http://www.w3.org/2001/XMLSchema#string

H Burton

http://www.w3.org/2001/XMLSchema#string

J S Shimony

http://www.w3.org/2001/XMLSchema#string

S W Sun

http://www.w3.org/2001/XMLSchema#string

P2860

Diffusion-weighted MR imaging of anisotropic water diffusion in cat central nervous system

Tracking neuronal fiber pathways in the living human brain

In vivo fiber tractography using DT-MRI data

Estimation of the effective self-diffusion tensor from the NMR spin echo

Distributed hierarchical processing in the primate cerebral cortex

Activation of the primary visual cortex by Braille reading in blind subjects

Specification of cerebral cortical areas

Three-dimensional tracking of axonal projections in the brain by magnetic resonance imaging

Preface: Cerebral Cortex Has Come of Age

Dissociating cortical regions activated by semantic and phonological tasks: a FMRI study in blind and sighted people.

P304

1653-1661

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1093/CERCOR/BHJ102

http://www.w3.org/2001/XMLSchema#string

P433

11

http://www.w3.org/2001/XMLSchema#string

P478

16

http://www.w3.org/2001/XMLSchema#string

P577

2005-12-28T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

16400157

http://www.w3.org/2001/XMLSchema#string

P921

diffusion-tensor imaging

P932

3789517

http://www.w3.org/2001/XMLSchema#string