scholarly article | Q13442814 |
P50 | author | Joseph C Griffis | Q85452349 |
Jerzy P Szaflarski | Q89585388 | ||
Jane B Allendorfer | Q114452459 | ||
P2093 | author name string | Rodolphe Nenert | |
P2860 | cites work | Why is it difficult to predict language impairment and outcome in patients with aphasia after stroke? | Q26825956 |
The human brain is intrinsically organized into dynamic, anticorrelated functional networks | Q27860802 | ||
Statistical parametric maps in functional imaging: A general linear approach | Q27864122 | ||
Voxel-based morphometry–the methods | Q28138780 | ||
Thresholding of statistical maps in functional neuroimaging using the false discovery rate | Q28208414 | ||
Psychophysiological and modulatory interactions in neuroimaging | Q29615025 | ||
Functional network organization of the human brain | Q29622931 | ||
Different patterns of language activation in post-stroke aphasia are detected by overt and covert versions of the verb generation fMRI task | Q30457794 | ||
Speech facilitation by left inferior frontal cortex stimulation. | Q30468608 | ||
Effects of noninvasive brain stimulation on language networks and recovery in early poststroke aphasia. | Q53103446 | ||
Voxel-Based Morphometry of the Human Brain: Methods and Applications | Q57003807 | ||
Improved language performance subsequent to low-frequency rTMS in patients with chronic non-fluent aphasia post-stroke | Q58041052 | ||
On Different Kinds of Aphasia, with Special Reference to Their Classification and Ultimate Pathology | Q58773184 | ||
Aphasia outcome in stroke: a clinical neuroradiological correlation | Q67801020 | ||
Aphasia in acute stroke: incidence, determinants, and recovery | Q71778461 | ||
Effects of repetitive transcranial magnetic stimulation in aphasic stroke: a randomized controlled pilot study | Q82920795 | ||
The neural architecture of the language comprehension network: converging evidence from lesion and connectivity analyses | Q30476887 | ||
Ventral and dorsal pathways for language | Q30484628 | ||
Lateralization is predicted by reduced coupling from the left to right prefrontal cortex during semantic decisions on written words | Q30501224 | ||
Damage to ventral and dorsal language pathways in acute aphasia | Q30535803 | ||
Functional specialization for semantic and phonological processing in the left inferior prefrontal cortex | Q30578650 | ||
Transcranial brain stimulation to promote functional recovery after stroke | Q30705609 | ||
The chronoarchitecture of the cerebral cortex | Q30991427 | ||
A systematic review and quantitative appraisal of fMRI studies of verbal fluency: role of the left inferior frontal gyrus. | Q31033369 | ||
LI-tool: a new toolbox to assess lateralization in functional MR-data | Q31106949 | ||
Laterality index in functional MRI: methodological issues | Q31141353 | ||
Activity in preserved left hemisphere regions predicts anomia severity in aphasia. | Q33780882 | ||
Effect of low-frequency rTMS on aphasia in stroke patients: a meta-analysis of randomized controlled trials | Q33921419 | ||
Constraint-induced therapy of chronic aphasia after stroke. | Q34083195 | ||
Neurobiology of language recovery after stroke: lessons from neuroimaging studies. | Q34112705 | ||
Changes in white matter integrity follow excitatory rTMS treatment of post-stroke aphasia | Q34123187 | ||
Preservation and modulation of specific left hemisphere regions is vital for treated recovery from anomia in stroke | Q34124720 | ||
Neuroimaging in aphasia treatment research: consensus and practical guidelines for data analysis | Q34183828 | ||
Why use a connectivity-based approach to study stroke and recovery of function? | Q34194670 | ||
Improved picture naming in chronic aphasia after TMS to part of right Broca's area: an open-protocol study | Q34402756 | ||
Paul Broca's historic cases: high resolution MR imaging of the brains of Leborgne and Lelong | Q34615252 | ||
Excitatory repetitive transcranial magnetic stimulation induces improvements in chronic post-stroke aphasia | Q34676860 | ||
Spontaneous neuronal activity distinguishes human dorsal and ventral attention systems | Q34686835 | ||
Regional and hemispheric determinants of language laterality: implications for preoperative fMRI. | Q35347443 | ||
iTBS-induced LTP-like plasticity parallels oscillatory activity changes in the primary sensory and motor areas of macaque monkeys. | Q35406640 | ||
Longitudinal loss of gray matter volume in patients with first-episode schizophrenia: DARTEL automated analysis and ROI validation | Q35592555 | ||
Left hemisphere plasticity and aphasia recovery | Q35855831 | ||
A generalized form of context-dependent psychophysiological interactions (gPPI): a comparison to standard approaches | Q36035347 | ||
Voxel-based Gaussian naïve Bayes classification of ischemic stroke lesions in individual T1-weighted MRI scans | Q36327568 | ||
Chronic Broca's Aphasia Is Caused by Damage to Broca's and Wernicke's Areas | Q36345175 | ||
A proposed regional hierarchy in recovery of post-stroke aphasia | Q36431721 | ||
Transcranial magnetic stimulation and aphasia rehabilitation | Q36660869 | ||
Reliability of fMRI for studies of language in post-stroke aphasia subjects | Q36775903 | ||
Recovered vs. not-recovered from post-stroke aphasia: the contributions from the dominant and non-dominant hemispheres | Q36982524 | ||
tDCS over the left inferior frontal cortex improves speech production in aphasia. | Q37150309 | ||
Comprehensive presurgical functional MRI language evaluation in adult patients with epilepsy | Q37390964 | ||
Ten ironic rules for non-statistical reviewers | Q38004264 | ||
Cerebral network disorders after stroke: evidence from imaging-based connectivity analyses of active and resting brain states in humans | Q38054640 | ||
White matter in aphasia: a historical review of the Dejerines' studies. | Q38124993 | ||
Induction of neuroplasticity and recovery in post-stroke aphasia by non-invasive brain stimulation | Q38176607 | ||
Repetitive transcranial magnetic stimulation for stroke rehabilitation-potential therapy or misplaced hope? | Q38193312 | ||
Modulation of brain plasticity in stroke: a novel model for neurorehabilitation | Q38247178 | ||
Contribution of the left and right inferior frontal gyrus in recovery from aphasia. A functional MRI study in stroke patients with preserved hemodynamic responsiveness | Q38379170 | ||
The right inferior frontal gyrus and poststroke aphasia: a follow-up investigation | Q38399084 | ||
Role of the contralateral inferior frontal gyrus in recovery of language function in poststroke aphasia: a combined repetitive transcranial magnetic stimulation and positron emission tomography study | Q38413809 | ||
A functional MRI study of the relationship between naming treatment outcomes and resting state functional connectivity in post-stroke aphasia | Q38437400 | ||
Human brain language areas identified by functional magnetic resonance imaging. | Q38458187 | ||
Are networks for residual language function and recovery consistent across aphasic patients? | Q41894217 | ||
Tools of the trade: psychophysiological interactions and functional connectivity | Q42202598 | ||
Changes in regional cerebral blood flow in the right cortex homologous to left language areas are directly affected by left hemispheric damage in aphasic stroke patients: evaluation by Tc-ECD SPECT and novel analytic software. | Q43239550 | ||
Theta burst stimulation of the human motor cortex | Q45233486 | ||
Early aphasia rehabilitation is associated with functional reactivation of the left inferior frontal gyrus: a pilot study. | Q46576803 | ||
Broca aphasia: Pathologic and clinical | Q48200397 | ||
Breakdown of functional connectivity in frontoparietal networks underlies behavioral deficits in spatial neglect | Q48243027 | ||
Translation of Broca's 1865 report. Localization of speech in the third left frontal convolution | Q48294588 | ||
The persistent and broadly modulating effect of inhibitory rTMS in nonfluent aphasic patients: a sham-controlled, double-blind study | Q48351778 | ||
Dual-hemisphere repetitive transcranial magnetic stimulation for rehabilitation of poststroke aphasia: a randomized, double-blind clinical trial | Q48356206 | ||
Brain plasticity in poststroke aphasia: what is the contribution of the right hemisphere? | Q48408401 | ||
Direct demonstration of transcallosal disinhibition in language networks | Q48507875 | ||
Theta burst stimulation over the right Broca's homologue induces improvement of naming in aphasic patients | Q48515099 | ||
Dynamics of language reorganization after stroke | Q48567740 | ||
Structural brain alterations following 5 days of intervention: dynamic aspects of neuroplasticity. | Q48648214 | ||
Broca's area damage is necessary but not sufficient to induce after-effects of cathodal tDCS on the unaffected hemisphere in post-stroke aphasia. | Q48661086 | ||
Analysis of automated methods for spatial normalization of lesioned brains | Q48674828 | ||
Voxel-based morphometry of herpes simplex encephalitis | Q48913923 | ||
Neural correlates of recovery from aphasia after damage to left inferior frontal cortex | Q49124929 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P304 | page(s) | 4796906 | |
P577 | publication date | 2016-01-10 | |
P1433 | published in | Neural Plasticity | Q15716605 |
P1476 | title | Interhemispheric Plasticity following Intermittent Theta Burst Stimulation in Chronic Poststroke Aphasia | |
P478 | volume | 2016 |