Dynamic intra- and interhemispheric interactions during unilateral and bilateral hand movements assessed with fMRI and DCM.
about
Insights from the supplementary motor area syndrome in balancing movement initiation and inhibitionStroke Connectome and Its Implications for Cognitive and Behavioral Sequela of StrokeCoordinate-based activation likelihood estimation meta-analysis of neuroimaging data: a random-effects approach based on empirical estimates of spatial uncertaintyManipulating motor performance and memory through real-time fMRI neurofeedback.Changes in resting state effective connectivity in the motor network following rehabilitation of upper extremity poststroke paresisInterhemispheric control of unilateral movement.Changes in regional activity are accompanied with changes in inter-regional connectivity during 4 weeks motor learning.Dynamic Causal Modeling applied to fMRI data shows high reliability.Multi-subject analyses with dynamic causal modeling.Lateralization 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.ALE Meta-Analysis Workflows Via the Brainmap Database: Progress Towards A Probabilistic Functional Brain AtlasDistant functional connectivity for bimanual finger coordination declines with aging: an fMRI and SEM explorationDifferential contribution of bilateral supplementary motor area to the effective connectivity networks induced by task conditions using dynamic causal modeling.Interindividual differences in motor network connectivity and behavioral response to iTBS in stroke patientsDissociating bottom-up and top-down processes in a manual stimulus-response compatibility task.Neural activation and functional connectivity during motor imagery of bimanual everyday actions.Motor planning in chronic upper-limb hemiparesis: evidence from movement-related potentialsState-related changes in MEG functional connectivity reveal the task-positive sensorimotor networkMotor control and neural plasticity through interhemispheric interactions.A longitudinal study of hand motor recovery after sub-acute stroke: a study combined FMRI with diffusion tensor imaging.Age differences in interhemispheric interactions: callosal structure, physiological function, and behavior.Simulating fiction: individual differences in literature comprehension revealed with FMRI.Dopaminergic modulation of motor network dynamics in Parkinson's disease.Functional organization and restoration of the brain motor-execution network after stroke and rehabilitation.Altered resting-state effective connectivity of fronto-parietal motor control systems on the primary motor network following stroke.Task-dependent effects of interhemispheric inhibition on motor controlOn the bimanual integration of proprioceptive information.New modalities of brain stimulation for stroke rehabilitation.Dorsal anterior cingulate cortex modulates supplementary motor area in coordinated unimanual motor behaviorA systems perspective on the effective connectivity of overt speech production.Transcallosal sensorimotor fiber tract structure-function relationships.Interactions between new and pre-existing dynamics in bimanual movement control.Brain effective connectivity during motor-imagery and execution following stroke and rehabilitationAge-related changes in causal interactions between cortical motor regions during hand grip.Cortical Mechanisms of Central Fatigue and Sense of Effort.Low-frequency rTMS in patients with subacute ischemic stroke: clinical evaluation of short and long-term outcomes and neurophysiological assessment of cortical excitability.Reorganization of Brain Networks in Aging and Age-related DiseasesElectrophysiological and functional connectivity of the human supplementary motor areaAltered Effective Connectivity of the Primary Motor Cortex in Stroke: A Resting-State fMRI Study with Granger Causality Analysis.
P2860
Q21558425-BDD834C1-01D5-47FF-AA34-D8AF6A292C2AQ26781921-E1EA35AB-08E0-4CA4-8B45-BF0AE80FC1B4Q29615013-725B35A4-2720-4888-BF78-37B5DC10A97BQ30411817-7DAB47B9-7184-4E7A-9887-99FC5448DD4BQ30457490-D83A3C84-9CF9-42FA-84F7-DC0B143D0753Q30459252-7DB25D01-5AF9-44ED-B38B-23054D86A6A3Q30476488-31E182AD-DC84-45F8-90E3-1B44FB8B9F8BQ30477908-8A06DC4F-F63A-4EF5-AD9A-B886E4E2748FQ30482679-48AA552B-A2BB-4757-99EE-B651E850D468Q30501224-692A40AF-CD16-4CC7-A785-78D2CC72F803Q30530221-B1D483C2-2A77-472B-A36C-4A642E1E5F35Q33487689-B38B5B7A-FE95-4FFA-8D41-845DB1B8DB8EQ33554234-ED2603DB-08C0-4618-840E-F7CFF1D2C76BQ33637712-49D99CA9-00CC-4A20-85B9-C492A266FD4CQ33812314-D6652250-616D-4C88-8FF9-B7DAA160A5FBQ34151527-B3022FF3-622D-41AA-B01D-737541FC1E4EQ34305488-4F1B16C9-48C8-448E-8F81-20BD0765470CQ34437530-4341328C-6FF9-4A24-805A-58FDC9A643C4Q34465408-2278AD08-D0CA-490F-B830-4C1004D74E23Q34552371-78862DF4-39C6-4521-80A7-59BDEA9F10C2Q34749495-58101FB1-6AD5-4A4F-8D01-05B66FF076D1Q34802786-975D390E-0C8C-41DA-BEA7-2F4860FDB962Q35073977-54E061D3-ED99-437E-9749-AE2C7DBED011Q35119408-D427B1A2-4957-4278-AC1D-C22C82115E88Q35229065-F4A91B22-3891-4703-BD55-81183885C056Q35377096-819AE5B7-369D-4242-AE1F-5D1BBED0C815Q35525818-7BC577C9-B4C4-4775-B655-007AE7B6010EQ35548635-692D4520-FA85-4DC5-9405-2D957ABE04EEQ35628683-951C75CE-E9F4-403E-8AA3-3F3B8E0F4E74Q35680982-B40DF498-BDEB-4927-B1C7-8D6E48390A88Q35708282-79B94849-3E12-4DED-8E12-565148074754Q35729739-CC50575A-2410-4C6A-9398-3F0A9D1C4CCDQ35771465-712CDF86-BF0B-49D8-9F97-C081FE086AA1Q35849704-B8CE217A-BA47-472F-AB6E-F027D5E92804Q35859646-A04E35B9-B1D5-4D07-B082-529BFD95C520Q35918129-B7437C7D-D484-49CD-83F8-CD758C33DD60Q36017727-440A0ADA-1DD7-49CA-A2A0-EFCEEE3756C6Q36040909-C7B59821-D19C-4C8E-8C4B-9B27CCA4E04CQ36052133-6D9FFC7E-1BA4-4741-AF13-D841BC37473DQ36192919-7C5ACCF5-8E1E-4C94-A904-6173D3904CED
P2860
Dynamic intra- and interhemispheric interactions during unilateral and bilateral hand movements assessed with fMRI and DCM.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
Dynamic intra- and interhemisp ...... ts assessed with fMRI and DCM.
@en
Dynamic intra- and interhemisp ...... ts assessed with fMRI and DCM.
@nl
type
label
Dynamic intra- and interhemisp ...... ts assessed with fMRI and DCM.
@en
Dynamic intra- and interhemisp ...... ts assessed with fMRI and DCM.
@nl
prefLabel
Dynamic intra- and interhemisp ...... ts assessed with fMRI and DCM.
@en
Dynamic intra- and interhemisp ...... ts assessed with fMRI and DCM.
@nl
P50
P1433
P1476
Dynamic intra- and interhemisp ...... ts assessed with fMRI and DCM.
@en
P2093
Dennis A Nowak
P304
P356
10.1016/J.NEUROIMAGE.2008.03.048
P407
P577
2008-04-08T00:00:00Z