| P50 | author | Frederick Verbruggen | Q38590382 |
| | Chris Chambers | Q42820330 |
| | Krishna D Singh | Q63991306 |
| | Christopher Allen | Q87996871 |
| P2093 | author name string | Christopher Allen | |
| | Krish D Singh | |
| P2860 | cites work | Automated Anatomical Labeling of Activations in SPM Using a Macroscopic Anatomical Parcellation of the MNI MRI Single-Subject Brain | Q25855787 |
| | The Striatum and Subthalamic Nucleus as Independent and Collaborative Structures in Motor Control | Q26766029 |
| | Cortical and subcortical contributions to Stop signal response inhibition: role of the subthalamic nucleus | Q28299834 |
| | Evidence for capacity sharing when stopping | Q28602820 |
| | Inter-individual variability in optimal current direction for transcranial magnetic stimulation of the motor cortex | Q29582875 |
| | An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest | Q29615076 |
| | Signal processing in magnetoencephalography. | Q30329491 |
| | Responding with restraint: what are the neurocognitive mechanisms? | Q30479202 |
| | Theta burst stimulation dissociates attention and action updating in human inferior frontal cortex | Q30496078 |
| | Inhibition and the right inferior frontal cortex: one decade on. | Q30736796 |
| | Beamformer analysis of MEG data | Q33232606 |
| | Intracranial EEG reveals a time- and frequency-specific role for the right inferior frontal gyrus and primary motor cortex in stopping initiated responses | Q33571110 |
| | On the Role of the Striatum in Response Inhibition | Q33747899 |
| | Cortical and subcortical interactions during action reprogramming and their related white matter pathways. | Q34068019 |
| | Flow of activation from V1 to frontal cortex in humans. A framework for defining "early" visual processing | Q34109954 |
| | Stop-signal inhibition disrupted by damage to right inferior frontal gyrus in humans. | Q34171615 |
| | A default Bayesian hypothesis test for correlations and partial correlations | Q34338160 |
| | Differential Go/NoGo activity in both contingent negative variation and spectral power | Q34465199 |
| | Transcranial magnetic stimulation in neurology | Q34535244 |
| | 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 | Q34906098 |
| | The prefrontal cortex achieves inhibitory control by facilitating subcortical motor pathway connectivity. | Q34946429 |
| | Different forms of self-control share a neurocognitive substrate | Q34987072 |
| | Coherent neural representation of hand speed in humans revealed by MEG imaging | Q35778278 |
| | Roles for the pre-supplementary motor area and the right inferior frontal gyrus in stopping action: electrophysiological responses and functional and structural connectivity. | Q35877733 |
| | Biophysical determinants of transcranial magnetic stimulation: effects of excitability and depth of targeted area | Q36534131 |
| | The Frontal Control of Stopping | Q36745297 |
| | Fictitious inhibitory differences: how skewness and slowing distort the estimation of stopping latencies | Q37047283 |
| | Response inhibition in the stop-signal paradigm | Q37258052 |
| | Preparing for selective inhibition within frontostriatal loops | Q37309523 |
| | Functional connectivity delineates distinct roles of the inferior frontal cortex and presupplementary motor area in stop signal inhibition | Q37402880 |
| | From Reactive to Proactive and Selective Control: Developing a Richer Model for Stopping Inappropriate Responses | Q37798879 |
| | The point of no return in choice reaction time: controlled and ballistic stages of response preparation | Q38491209 |
| | Bayesian Versus Orthodox Statistics: Which Side Are You On? | Q38546092 |
| | Endogeneous brain potentials associated with selective auditory attention | Q38584440 |
| | BOLD Responses in Human Primary Visual Cortex are Insensitive to Substantial Changes in Neural Activity. | Q41343134 |
| | Functional connectivity in the human language system: a cortico-cortical evoked potential study. | Q42465034 |
| | On the ability to inhibit thought and action: general and special theories of an act of control | Q43994514 |
| | Suppression of visual perception by magnetic coil stimulation of human occipital cortex | Q44323539 |
| | Double dissociation of V1 and V5/MT activity in visual awareness | Q45259261 |
| | Expectations and violations: delineating the neural network of proactive inhibitory control | Q46458831 |
| | On the transmission of partial information: inferences from movement-related brain potentials | Q46658529 |
| | Motivational tuning of fronto-subthalamic connectivity facilitates control of action impulses. | Q47795552 |
| | ERP components associated with successful and unsuccessful stopping in a stop-signal task. | Q48107642 |
| | Motor cortex stimulation in intact man. 1. General characteristics of EMG responses in different muscles | Q48197312 |
| | ERP components in Go/Nogo tasks and their relation to inhibition | Q48200514 |
| | A sensor-weighted overlapping-sphere head model and exhaustive head model comparison for MEG. | Q48267812 |
| | Functional connectivity in human cortical motor system: a cortico-cortical evoked potential study | Q48394745 |
| | Increased visual gamma power in schizoaffective bipolar disorder | Q48609060 |
| | Task-related changes in cortical synchronization are spatially coincident with the hemodynamic response | Q48624458 |
| | Fast backprojections from the motion to the primary visual area necessary for visual awareness | Q48906915 |
| | Reliability of the 'observation of movement' method for determining motor threshold using transcranial magnetic stimulation | Q48931569 |
| | Stop-signal task difficulty and the right inferior frontal gyrus. | Q49119629 |
| | Magnetoencephalographic signatures of right prefrontal cortex involvement in response inhibition. | Q50661331 |
| | Using confidence intervals in within-subject designs. | Q51651357 |
| | A MATLAB toolbox for Granger causal connectivity analysis. | Q51771582 |
| | Bayesian t tests for accepting and rejecting the null hypothesis. | Q51848247 |
| | Preparation to inhibit a response complements response inhibition during performance of a stop-signal task. | Q51920219 |
| | Neural mechanisms underlying adaptive actions after slips. | Q51961840 |
| | Electrophysiological activity underlying inhibitory control processes in normal adults. | Q52041925 |
| | Event-related potentials and factor Z-score descriptors of P3 in psychiatric patients | Q52042870 |
| | Event-related beta desynchronization in human subthalamic nucleus correlates with motor performance. | Q52093658 |
| | Inhibitory control in children with attention-deficit/hyperactivity disorder: event-related potentials identify the processing component and timing of an impaired right-frontal response-inhibition mechanism. | Q52166332 |
| | Localization of the motor hand area to a knob on the precentral gyrus. A new landmark | Q73122273 |
| | Localization of event-related activity by SAM(erf) | Q80362281 |
| | Alpha event-related desynchronization preceding a go/no-go task: a high-resolution EEG study | Q80911968 |
| | When 'go' and 'nogo' are equally frequent: ERP components and cortical tomography | Q80960578 |
| P433 | issue | 2 | |
| P304 | page(s) | 171369 | |
| P577 | publication date | 2018-02-14 | |
| P1433 | published in | Royal Society Open Science | Q18712516 |
| P1476 | title | Evidence for parallel activation of the pre-supplementary motor area and inferior frontal cortex during response inhibition: a combined MEG and TMS study | |
| P478 | volume | 5 | |