Time course of functional connectivity between dorsal premotor and contralateral motor cortex during movement selection.
about
Transcranial Magnetic Mapping of the Short-Latency Modulations of Corticospinal Activity from the Ipsilateral Hemisphere during RestCombined neurostimulation and neuroimaging in cognitive neuroscience: past, present, and futureInfluence of Delay Period Duration on Inhibitory Processes for Response PreparationDissociating Contributions of the Motor Cortex to Speech Perception and Response Bias by Using Transcranial Magnetic StimulationThe role of inhibition from the left dorsal premotor cortex in right-sided focal hand dystoniaThe role of contralesional dorsal premotor cortex after stroke as studied with concurrent TMS-fMRI.Dorsal premotor cortex exerts state-dependent causal influences on activity in contralateral primary motor and dorsal premotor cortex.Combining TMS and EEG to study cognitive function and cortico-cortico interactionsFunctional interplay between posterior parietal and ipsilateral motor cortex revealed by twin-coil transcranial magnetic stimulation during reach planning toward contralateral space.Effect of transcranial magnetic stimulation (TMS) on parietal and premotor cortex during planning of reaching movements.Effects of TMS on different stages of motor and non-motor verb processing in the primary motor cortex.Transcranial magnetic stimulation of posterior parietal cortex affects decisions of hand choice.Controlling instabilities in manipulation requires specific cortical-striatal-cerebellar networksExcitability of the motor cortex ipsilateral to the moving body side depends on spatio-temporal task complexity and hemispheric specialization.A network centered on ventral premotor cortex exerts both facilitatory and inhibitory control over primary motor cortex during action reprogrammingMeasuring and manipulating brain connectivity with resting state functional connectivity magnetic resonance imaging (fcMRI) and transcranial magnetic stimulation (TMS).Corticospinal facilitation during observation of graspable objects: a transcranial magnetic stimulation study.Premotor-motor interhemispheric inhibition is released during movement initiation in older but not young adults.FMRI resting slow fluctuations correlate with the activity of fast cortico-cortical physiological connectionsInterhemispheric inhibition during mental actions of different complexity.Dissociating the influence of response selection and task anticipation on corticospinal suppression during response preparation.Prefrontal control over motor cortex cycles at beta frequency during movement inhibition.Contribution of transcranial magnetic stimulation to the understanding of functional recovery mechanisms after stroke.Misconceptions about mirror-induced motor cortex activation.Task-dependent effects of interhemispheric inhibition on motor controlTranscallosal sensorimotor fiber tract structure-function relationships.Dissociating the role of prefrontal and premotor cortices in controlling inhibitory mechanisms during motor preparation.Muscle and timing-specific functional connectivity between the dorsolateral prefrontal cortex and the primary motor cortex.Neural plasticity and its contribution to functional recovery.Influence of somatosensory input on interhemispheric interactions in patients with chronic stroke.Contribution of transcranial magnetic stimulation to the understanding of cortical mechanisms involved in motor control.Role of corticospinal suppression during motor preparation.Low-Frequency Repetitive Transcranial Magnetic Stimulation Targeted to Premotor Cortex Followed by Primary Motor Cortex Modulates Excitability Differently Than Premotor Cortex or Primary Motor Cortex Stimulation Alone.Interregional compensatory mechanisms of motor functioning in progressing preclinical neurodegenerationKeeping the world at hand: rapid visuomotor processing for hand-object interactions.Modulation of brain plasticity in stroke: a novel model for neurorehabilitation.The uses and interpretations of the motor-evoked potential for understanding behaviour.Making mirrors: premotor cortex stimulation enhances mirror and counter-mirror motor facilitation.Contribution of the primary motor cortex to motor imagery: a subthreshold TMS study.Transcranial direct current stimulation (tDCS) applied to the left dorsolateral premotor cortex (dPMC) interferes with rhythm reproduction.
P2860
Q21558413-A2ECBC51-016D-468A-BC32-933F8A4BAF5CQ27023680-AD40DC72-BDA3-49E4-8401-2213A3EFCEB5Q30355028-B7F85844-5FDB-45E2-A426-1C39E45EF0B3Q30402254-DC25F17B-9DBD-419C-B286-E7355379B4D1Q30448590-B4A2AB08-C7ED-4CC3-BD14-58458B9005F5Q30476491-E6017FC7-0D9F-4EDA-AB78-49A865646098Q30485010-698CCA09-9F71-41BB-A805-B38E98DDD387Q30485216-267B3DF5-EA85-4471-BA88-BC73B111E07BQ30486194-0BFF6AAB-8E62-42C4-BF98-827F848CDC05Q30491045-EAC2805A-CA0C-41D4-A891-E89EB237C29EQ30491133-43EEAA65-A114-42DF-844B-B096E7E71D8DQ30496999-04E8A845-A542-415B-A3A0-558E0E5C9EF9Q30499436-009BCFF0-9E60-4BC4-8ADB-4290BD4744ECQ33847170-916764D5-326B-4621-BAD4-0C0BEF4E90B5Q33892983-E86717B7-912E-4A42-9794-3C602F66C3A3Q34215644-BB41814C-BC08-4245-B7A0-A48F6B25BFB0Q34473880-A7D39A9D-D5F0-4B59-9DCE-3293F924D883Q34534177-CEE6FF79-6F03-4FE4-8971-419DBDFB175EQ34534364-5FF79AE9-D436-4371-B7F6-AE9D57CDE23BQ34602831-57411281-8608-4AC4-9840-CF7F5648ED52Q34657228-E9817513-18DF-41CD-BF72-162C5B112979Q34759749-E6573A92-20B8-49C7-9892-5F4A72865FCBQ35004162-B4673BF0-E72F-416C-A929-EA0935907E81Q35111693-5B35A523-2891-455A-95A1-E4DAAAD64FDCQ35525818-2B870756-21B1-4247-8537-74833B01EE23Q35729739-A9B86C00-DD2B-4CEB-A4CF-47BD7A501AEDQ35832926-35335CE1-E331-45D4-B28F-EF05B1351999Q36650944-D752BD3A-944C-447D-97AD-B866709F04F7Q36935061-F98F28F6-77C7-4351-B2A0-C4CA096DBD09Q36960830-435B2AAA-2FC8-46B9-ABF6-E89BA1BE336FQ36987520-A1EA94D8-68BE-4384-A9C1-6E0DAB033ABDQ37293598-9373231A-DE03-450F-9A94-ECB8FCDC8B23Q37499911-E00F0E8D-C9E7-4ECF-8C59-24A1F59C9B1FQ37505020-CC5CF19E-9475-4EED-AAB5-B72F6525224DQ38004842-E8D085DE-9FA6-491A-BD42-B6403435DEAAQ38247178-9CD0AFE4-FEC9-442D-AB5E-B5B363EF145AQ38309032-C19D83E1-6547-4BA6-9331-135A387C4CAFQ38466110-302E896D-8CC9-4DB8-9785-8E458D48C67CQ38497775-4888CAF7-523F-45B0-B8C6-F095B4ED1452Q41046033-0BD479C9-CFC4-48B4-9692-5253FB91240F
P2860
Time course of functional connectivity between dorsal premotor and contralateral motor cortex during movement selection.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Time course of functional conn ...... tex during movement selection.
@en
Time course of functional conn ...... tex during movement selection.
@nl
type
label
Time course of functional conn ...... tex during movement selection.
@en
Time course of functional conn ...... tex during movement selection.
@nl
prefLabel
Time course of functional conn ...... tex during movement selection.
@en
Time course of functional conn ...... tex during movement selection.
@nl
P2093
P50
P1476
Time course of functional conn ...... rtex during movement selection
@en
P2093
Maria Alvarez Sauco
Michele Franca
Miguel Fernandez Del Olmo
Rosemary Milton
P304
P356
10.1523/JNEUROSCI.1158-06.2006
P407
P577
2006-07-01T00:00:00Z