about
Visual recovery after perinatal stroke evidenced by functional and diffusion MRI: case report.The PLORAS Database: A data repository for Predicting Language Outcome and Recovery After StrokeA trade-off between somatosensory and auditory related brain activity during object naming but not readingThe angular gyrus: multiple functions and multiple subdivisions.Sensory-to-motor integration during auditory repetition: a combined fMRI and lesion studyAuditory-motor interactions for the production of native and non-native speech.Where, when and why brain activation differs for bilinguals and monolinguals during picture naming and reading aloud.Explaining function with anatomy: language lateralization and corpus callosum sizeInter-subject variability in the use of two different neuronal networks for reading aloud familiar wordsThe left superior temporal gyrus is a shared substrate for auditory short-term memory and speech comprehension: evidence from 210 patients with strokePredicting language lateralization from gray matterDevelopmental dyslexia in Chinese and English populations: dissociating the effect of dyslexia from language differences.Functional subdivisions in the left angular gyrus where the semantic system meets and diverges from the default networkLateralization is predicted by reduced coupling from the left to right prefrontal cortex during semantic decisions on written wordsReading without the left ventral occipito-temporal cortex.Network discovery with large DCMsInter- and intrahemispheric connectivity differences when reading Japanese Kanji and Hiragana.Using transcranial magnetic stimulation of the undamaged brain to identify lesion sites that predict language outcome after stroke.Functional neuroimaging findings on the human perception of illusory contours.Laterality index in functional MRI: methodological issuesTranslational and Brownian motion in laser-Doppler flowmetry of large tissue volumes.Functional MRI of the newborn.The role of functional magnetic resonance imaging in the study of brain development, injury, and recovery in the newborn.Predicting language outcome and recovery after stroke: the PLORAS systemDissecting the functional anatomy of auditory word repetitionReading aloud boosts connectivity through the putamenIdentifying abnormal connectivity in patients using dynamic causal modeling of FMRI responsesMultinomial inference on distributed responses in SPMThe importance of premotor cortex for supporting speech production after left capsular-putaminal damage.Verbal and non-verbal intelligence changes in the teenage brainMicrobleed detection using automated segmentation (MIDAS): a new method applicable to standard clinical MR imagesRegional and hemispheric determinants of language laterality: implications for preoperative fMRI.Explaining left lateralization for words in the ventral occipitotemporal cortex.Dissociating the semantic function of two neighbouring subregions in the left lateral anterior temporal lobeFunctional Heterogeneity within the Default Network during Semantic Processing and Speech Production.Distinguishing the effect of lesion load from tract disconnection in the arcuate and uncinate fasciculi.Visualising inter-subject variability in fMRI using threshold-weighted overlap maps.Can fully automated detection of corticospinal tract damage be used in stroke patients?Dissociating frontal regions that co-lateralize with different ventral occipitotemporal regions during word processing.Dissociating functional brain networks by decoding the between-subject variability.
P50
Q24816818-FBDA914A-756F-41BE-B240-F2B3EAE65104Q28607093-D99D725B-9585-4343-96A0-44E25F811DF9Q30414779-B1D20D29-D3A9-4DEA-8C9E-18D890435872Q30434218-CF863515-4376-4B5B-BD0D-345363A0B391Q30442886-1CB69DE0-76C9-48D6-B101-9092B4C9E23AQ30451213-5C2A65D7-26D5-4AA2-B10B-55A64F1D73CCQ30469479-FF2B21C2-AD1B-44DB-8950-D7A886E3D3C5Q30487934-9FD21EEC-78AE-4BBD-8157-0CBAC94D1D23Q30489411-28537167-83A2-4B41-A5B4-7B14F8F761F2Q30492300-340585D0-62B4-4B06-BEC8-E139B413D160Q30492396-795F183C-9C81-4B12-9BD2-6CEB3F313E2FQ30494715-AE89D0B3-DCC3-48DC-99B5-B31922968501Q30500796-9966A587-E26A-476C-9026-297F97DAF40DQ30501224-C214B695-6325-4BB7-AC7E-A3DD54F45BA8Q30530221-25ADD752-C1BF-4623-8E0A-9C4C6B772496Q30534782-2CF719FA-6A9B-4B95-ADCE-E3E64516D218Q30577683-8D617100-882C-4269-878F-FF764279FE14Q30853553-94832F62-AFFE-4683-91C7-ACB93CC6F204Q31031761-72D62292-B6CB-4F13-B9A8-6185262A4F68Q31141353-7961C5ED-5416-4371-8596-C2510E00D397Q31148951-A574B103-7EE9-4CCE-B885-F9B3075FAEEBQ33258354-52D49E48-910E-4A15-BA27-863B201DD915Q33527185-AB8029CD-E14A-44AD-A3BF-7340EB1C7D11Q33538484-4CF5B3E6-E02F-4B94-A576-DFCBA5CB3649Q33600488-3707FD1E-AD0F-4F42-9D2C-79BA8A23E401Q33648049-F53EB45D-771C-44B5-BA34-3389EFC35C7EQ33691399-36161C34-129F-4201-984A-89EB82446D89Q34073655-90E3AFB3-0A7A-4F52-A1BD-49E9A24FC2ADQ34383463-B10697A6-517B-47CA-BD79-6F8CD98709E8Q34633133-2B0B0AAD-0442-49D8-9BDB-342E62372E33Q34712616-4FC8AC1E-DAD1-4DB8-BA71-287B60945377Q35347443-112264D2-F2A9-4C6A-81A9-6ED88BC0C8AFQ35597555-CC8D9312-9A2B-4C8B-82D3-68CCB73C0836Q36092449-C195FB4F-02E9-45E1-B407-D0D4A6370ED0Q36159790-2B7D72EB-FDCB-445C-82EC-CF3918D4B223Q36407892-38410234-90B7-4F21-B702-C925F467D667Q36548821-45464FA2-2B86-41C2-B37B-09F727D697C0Q37039689-7711A4A0-CC25-4E2F-82FF-56D4D0F01F76Q37061064-562EC5CB-62E2-4241-A2CB-F8307AC3657DQ37119261-F4FD263D-3D83-41B1-9529-2422754C67C2
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Mohamed L. Seghier
@ast
Mohamed L. Seghier
@en
Mohamed L. Seghier
@es
Mohamed L. Seghier
@sl
type
label
Mohamed L. Seghier
@ast
Mohamed L. Seghier
@en
Mohamed L. Seghier
@es
Mohamed L. Seghier
@sl
prefLabel
Mohamed L. Seghier
@ast
Mohamed L. Seghier
@en
Mohamed L. Seghier
@es
Mohamed L. Seghier
@sl
P106
P1153
6602537740
P21
P214
9604155044757972520003
P2456
P31
P496
0000-0002-1146-8800
P7859
viaf-9604155044757972520003