scholarly article | Q13442814 |
P819 | ADS bibcode | 2010PNAS..10713240N |
P356 | DOI | 10.1073/PNAS.1000674107 |
P932 | PMC publication ID | 2922153 |
P698 | PubMed publication ID | 20622155 |
P5875 | ResearchGate publication ID | 45151172 |
P50 | author | Matthew Rushworth | Q60673737 |
Rogier B Mars | Q63408181 | ||
P2093 | author name string | Etienne Olivier | |
Franz-Xaver Neubert | |||
Ethan R Buch | |||
P2860 | cites work | Triangulating a cognitive control network using diffusion-weighted magnetic resonance imaging (MRI) and functional MRI | Q23891064 |
The role of the medial frontal cortex in cognitive control | Q28288013 | ||
Cortical and subcortical contributions to Stop signal response inhibition: role of the subthalamic nucleus | Q28299834 | ||
Dissociating the role of the dorsolateral prefrontal and anterior cingulate cortex in cognitive control | Q29615016 | ||
Distinct brain networks for adaptive and stable task control in humans | Q29619140 | ||
Role for subthalamic nucleus neurons in switching from automatic to controlled eye movement | Q30486945 | ||
Intracranial EEG reveals a time- and frequency-specific role for the right inferior frontal gyrus and primary motor cortex in stopping initiated responses | Q33571110 | ||
A network centered on ventral premotor cortex exerts both facilitatory and inhibitory control over primary motor cortex during action reprogramming | Q33892983 | ||
Transcranial magnetic stimulation and cognitive neuroscience | Q34185495 | ||
To do or not to do: the neural signature of self-control. | Q34666710 | ||
Functional significance of the cortico-subthalamo-pallidal 'hyperdirect' pathway | Q34688620 | ||
The role of the pre-supplementary motor area in the control of action | Q37111437 | ||
Functional connectivity delineates distinct roles of the inferior frontal cortex and presupplementary motor area in stop signal inhibition | Q37402880 | ||
Short-latency influence of medial frontal cortex on primary motor cortex during action selection under conflict | Q38473122 | ||
On the programming and reprogramming of actions | Q38481137 | ||
Hold your horses: a dynamic computational role for the subthalamic nucleus in decision making | Q42500759 | ||
Selective modulation of interactions between ventral premotor cortex and primary motor cortex during precision grasping in humans | Q46651768 | ||
Motivation and cognitive control in the human prefrontal cortex | Q48275746 | ||
Switching from automatic to controlled action by monkey medial frontal cortex | Q48304091 | ||
Probabilistic diffusion tractography with multiple fibre orientations: What can we gain? | Q48385479 | ||
Executive "brake failure" following deactivation of human frontal lobe | Q48630574 | ||
Control of prepotent responses by the superior medial frontal cortex | Q48882902 | ||
Function and structure of the right inferior frontal cortex predict individual differences in response inhibition: a model-based approach. | Q48910379 | ||
Individual Differences in White-Matter Microstructure Reflect Variation in Functional Connectivity during Choice | Q57520067 | ||
P433 | issue | 30 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 13240-13245 | |
P577 | publication date | 2010-07-09 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Cortical and subcortical interactions during action reprogramming and their related white matter pathways | |
P478 | volume | 107 |
Q42109452 | A dual but asymmetric role of the dorsal anterior cingulate cortex in response inhibition and switching from a non-salient to salient action. |
Q37171361 | A model of motor performance during surface penetration: from physics to voluntary control |
Q48450734 | A network centred on the inferior frontal cortex is critically involved in levodopa-induced dyskinesias |
Q24810429 | A neural circuit covarying with social hierarchy in macaques |
Q35292588 | A unified framework for inhibitory control |
Q39665292 | Action reprogramming in Parkinson's disease: response to prediction error is modulated by levels of dopamine |
Q46027782 | Aging and inhibitory control of action: cortico-subthalamic connection strength predicts stopping performance. |
Q48545182 | Alterations in brain white matter contributing to age-related slowing of task switching performance: The role of radial diffusivity and magnetization transfer ratio. |
Q48918092 | Altered inhibitory interaction among inferior frontal and motor cortex in l-dopa-induced dyskinesias |
Q97527071 | Altered interhemispheric synchrony in Parkinson's disease patients with levodopa-induced dyskinesias |
Q36847533 | Anatomical connection strength predicts dopaminergic drug effects on fronto-striatal function |
Q49161553 | Asymmetry of parietal interhemispheric connections in humans. |
Q35044806 | Attention drives synchronization of alpha and beta rhythms between right inferior frontal and primary sensory neocortex |
Q46847061 | Bilateral stimulation of the subthalamic nucleus has differential effects on reactive and proactive inhibition and conflict-induced slowing in Parkinson's disease |
Q47993945 | Brain stimulation improves cognitive control by modulating medial-frontal activity and preSMA-vmPFC functional connectivity. |
Q96767347 | Brain structural connectome in relation to PRRT2 mutations in paroxysmal kinesigenic dyskinesia |
Q38666096 | Building connectomes using diffusion MRI: why, how and but. |
Q35157935 | Causal manipulation of functional connectivity in a specific neural pathway during behaviour and at rest |
Q48787445 | Changing your mind before it is too late: the electrophysiological correlates of online error correction during response selection |
Q37381835 | Chronometric electrical stimulation of right inferior frontal cortex increases motor braking |
Q34181768 | Cognitive control reflects context monitoring, not motoric stopping, in response inhibition |
Q48319777 | Controlling your impulses: electrical stimulation of the human supplementary motor complex prevents impulsive errors |
Q37885420 | Cortico-basal ganglia mechanisms for overcoming innate, habitual and motivational behaviors |
Q92697528 | Cortico-basal white matter alterations occurring in Parkinson's disease |
Q26722181 | Cortico-subthalamic white matter tract strength predicts interindividual efficacy in stopping a motor response |
Q35606715 | Critical neural substrates for correcting unexpected trajectory errors and learning from them |
Q34906098 | Deep brain stimulation of the subthalamic nucleus alters the cortical profile of response inhibition in the beta frequency band: a scalp EEG study in Parkinson's disease |
Q47730960 | Dissociable effects of motivation and expectancy on conflict processing: an fMRI study. |
Q46624812 | Dissociable networks control conflict during perception and response selection: a transcranial magnetic stimulation Study. |
Q34416520 | Dissociable roles of right inferior frontal cortex and anterior insula in inhibitory control: evidence from intrinsic and task-related functional parcellation, connectivity, and response profile analyses across multiple datasets |
Q39918740 | Dissociating the Role of the pre-SMA in Response Inhibition and Switching: A Combined Online and Offline TMS Approach. |
Q34652560 | Distributed and causal influence of frontal operculum in task control. |
Q30591419 | Double dissociation of the roles of the left and right prefrontal cortices in anticipatory regulation of action |
Q48496309 | Effective connectivity between human supplementary motor area and primary motor cortex: a paired-coil TMS study |
Q45212115 | Effective connectivity reveals important roles for both the hyperdirect (fronto-subthalamic) and the indirect (fronto-striatal-pallidal) fronto-basal ganglia pathways during response inhibition. |
Q48211710 | Effects of rTMS of pre-supplementary motor area on fronto basal ganglia network activity during stop-signal task. |
Q49265228 | Evidence for parallel activation of the pre-supplementary motor area and inferior frontal cortex during response inhibition: a combined MEG and TMS study. |
Q48957660 | Fast-ball sports experts depend on an inhibitory strategy to reprogram their movement timing |
Q37798879 | From Reactive to Proactive and Selective Control: Developing a Richer Model for Stopping Inappropriate Responses |
Q34650283 | Frontal and parietal cortex contributions to action modification |
Q38400593 | Hemispheric Specialization within the Superior Anterior Temporal Cortex for Social and Nonsocial Concepts |
Q35976207 | Hemispheric specialization for movement control produces dissociable differences in online corrections after stroke |
Q47286582 | How preparation changes the need for top-down control of the basal ganglia when inhibiting premature actions |
Q50770523 | Influence of reward on corticospinal excitability during movement preparation. |
Q37158177 | Intracranial electroencephalography reveals different temporal profiles for dorsal- and ventro-lateral prefrontal cortex in preparing to stop action |
Q48617765 | Is executive control used to compensate for involuntary movements in levodopa-induced dyskinesia? |
Q37297439 | Large scale brain functional networks support sentence comprehension: evidence from both explicit and implicit language tasks |
Q30454637 | Left dorsal premotor cortex and supramarginal gyrus complement each other during rapid action reprogramming |
Q43839949 | Limbic and motor circuits involved in symmetry behavior in Tourette's syndrome |
Q47137025 | Long-latency interhemispheric interactions between motor-related areas and the primary motor cortex: a dual site TMS study |
Q42356513 | Long-latency modulation of motor cortex excitability by ipsilateral posterior inferior frontal gyrus and pre-supplementary motor area. |
Q37542204 | Long-range connectomics |
Q38463935 | Modulation of short intra-cortical inhibition during action reprogramming |
Q47795552 | Motivational tuning of fronto-subthalamic connectivity facilitates control of action impulses. |
Q47740626 | Motivationally significant self-control: enhanced action withholding involves the right inferior frontal junction |
Q36650944 | Muscle and timing-specific functional connectivity between the dorsolateral prefrontal cortex and the primary motor cortex |
Q42415986 | Muscle co-activity tuning in Parkinsonian hand movement: disease-specific changes at behavioral and cerebral level |
Q49958137 | Neural activity induced by visual food stimuli presented out of awareness: a preliminary magnetoencephalography study. |
Q38955789 | Neural and behavioral mechanisms of proactive and reactive inhibition |
Q35878897 | Neural bases of individual variation in decision time |
Q99572204 | Non-selective inhibition of the motor system following unexpected and expected infrequent events |
Q60039394 | Noninvasive Associative Plasticity Induction in a Corticocortical Pathway of the Human Brain |
Q90096442 | Out with the Old and in with the New: the Contribution of Prefrontal and Cerebellar Areas to Backward Inhibition |
Q37300878 | Paired-pulse transcranial magnetic stimulation reveals probability-dependent changes in functional connectivity between right inferior frontal cortex and primary motor cortex during go/no-go performance |
Q48347541 | Parietal transcranial direct current stimulation modulates primary motor cortex excitability. |
Q38258234 | Parkinson's disease, the subthalamic nucleus, inhibition, and impulsivity |
Q39199617 | Physiological Markers of Motor Inhibition during Human Behavior. |
Q34033634 | Post-error adjustments |
Q44746360 | Posterior medial frontal cortex activity predicts post-error adaptations in task-related visual and motor areas |
Q42024576 | PreSMA stimulation changes task-free functional connectivity in the fronto-basal-ganglia that correlates with response inhibition efficiency. |
Q37153987 | Predictive decision making driven by multiple time-linked reward representations in the anterior cingulate cortex |
Q37309523 | Preparing for selective inhibition within frontostriatal loops |
Q41896869 | Preventing (impulsive) errors: Electrophysiological evidence for online inhibitory control over incorrect responses |
Q48608230 | Rapid language-related plasticity: microstructural changes in the cortex after a short session of new word learning |
Q34225763 | Re-evaluating the role of the orbitofrontal cortex in reward and reinforcement. |
Q42970584 | Reconciling the influence of task-set switching and motor inhibition processes on stop signal after-effects |
Q91812358 | Reduced motor cortex inhibition and a 'cognitive-first' prioritisation strategy for older adults during dual-tasking |
Q48104774 | Repetitive transcranial magnetic stimulation over inferior frontal cortex impairs the suppression (but not expression) of action impulses during action conflict |
Q60911913 | Reward improves response inhibition by enhancing attentional capture |
Q44008419 | Reward prospect rapidly speeds up response inhibition via reactive control |
Q35877733 | Roles for the pre-supplementary motor area and the right inferior frontal gyrus in stopping action: electrophysiological responses and functional and structural connectivity. |
Q41885589 | Selection and stopping in voluntary action: a meta-analysis and combined fMRI study |
Q36948417 | Spatial Heterogeneity of Cortical Excitability in Migraine Revealed by Multifrequency Neuromagnetic Signals |
Q48819113 | State-dependent and timing-dependent bidirectional associative plasticity in the human SMA-M1 network. |
Q91178576 | Static magnetic field stimulation of the supplementary motor area modulates resting-state activity and motor behavior |
Q33838475 | Stimulation of contacts in ventral but not dorsal subthalamic nucleus normalizes response switching in Parkinson's disease |
Q37620409 | Structural Connectivity Variances Underlie Functional and Behavioral Changes During Pain Relief Induced by Neuromodulation |
Q47922174 | Structural connectivity of right frontal hyperactive areas scales with stuttering severity |
Q36088279 | Subthalamic nucleus stimulation reverses mediofrontal influence over decision threshold |
Q44134589 | TMS over M1 reveals expression and selective suppression of conflicting action impulses |
Q26766029 | The Striatum and Subthalamic Nucleus as Independent and Collaborative Structures in Motor Control |
Q34574113 | The acute effects of exercise on cortical excitation and psychosocial outcomes in men treated for prostate cancer: a randomized controlled trial |
Q36546344 | The effects of brain lateralization on motor control and adaptation |
Q36534024 | The intrinsic geometry of the human brain connectome |
Q41550007 | The neural mechanism underpinning balance calibration between action inhibition and activation initiated by reward motivation |
Q37097912 | The organization of dorsal frontal cortex in humans and macaques |
Q34946429 | The prefrontal cortex achieves inhibitory control by facilitating subcortical motor pathway connectivity. |
Q50637926 | The role of dopamine in motor flexibility. |
Q34056311 | The role of stimulus salience and attentional capture across the neural hierarchy in a stop-signal task. |
Q50218203 | The role of the dorsal medial frontal cortex in central processing limitation: a transcranial magnetic stimulation study. |
Q36115936 | The role of the right presupplementary motor area in stopping action: two studies with event-related transcranial magnetic stimulation |
Q37097998 | The sequential encoding of competing action goals involves dynamic restructuring of motor plans in working memory |
Q44460801 | The spinal reflex cannot be perceptually separated from voluntary movements |
Q26999918 | The subthalamic nucleus, oscillations, and conflict |
Q57300012 | Theta Activity in the Left Dorsal Premotor Cortex During Action Re-Evaluation and Motor Reprogramming |
Q36103154 | Time-dependent changes in human corticospinal excitability reveal value-based competition for action during decision processing. |
Q30433834 | To head or to heed? Beyond the surface of selective action inhibition: a review |
Q43549261 | Top-down inhibitory control exerted by the medial frontal cortex during action selection under conflict |
Q21558413 | Transcranial Magnetic Mapping of the Short-Latency Modulations of Corticospinal Activity from the Ipsilateral Hemisphere during Rest |
Q38545137 | Transcranial Magnetic Stimulation: Decomposing the Processes Underlying Action Preparation. |
Q48335764 | Transcranial magnetic stimulation and functional MRI reveal cortical and subcortical interactions during stop-signal response inhibition |
Q30426608 | Transcranial magnetic stimulation for investigating causal brain-behavioral relationships and their time course |
Q30834646 | Transcranial magnetic stimulation to dorsolateral prefrontal cortex affects conflict-induced behavioural adaptation in a Wisconsin Card Sorting Test analogue |
Q36889645 | Tuning the Brake While Raising the Stake: Network Dynamics during Sequential Decision-Making |
Q30438296 | Unexpected events induce motor slowing via a brain mechanism for action-stopping with global suppressive effects. |
Q47316143 | Weight-specific anticipatory coding of grip force in human dorsal premotor cortex. |
Q38173742 | What makes the dorsomedial frontal cortex active during reading the mental states of others? |
Q34054712 | White matter microstructure and cognitive function. |
Search more.