scholarly article | Q13442814 |
P50 | author | Anthony N Carlsen | Q42563420 |
Neil M Drummond | Q59694433 | ||
Erin K Cressman | Q88621726 | ||
P2093 | author name string | Erin K Cressman | |
Neil M Drummond | |||
P2860 | cites work | The point of no return: A fundamental limit on the ability to control thought and action | Q28082285 |
Patterned ballistic movements triggered by a startle in healthy humans | Q33858570 | ||
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Response inhibition during perceptual decision making in humans and macaques | Q34077612 | ||
A startle speeds up the execution of externally guided saccades. | Q34562116 | ||
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Inhibitory control in mind and brain 2.0: blocked-input models of saccadic countermanding. | Q36015051 | ||
Competing basal ganglia pathways determine the difference between stopping and deciding not to go | Q36391331 | ||
Inhibitory control in mind and brain: an interactive race model of countermanding saccades. | Q36821319 | ||
Models of response inhibition in the stop-signal and stop-change paradigms | Q37228599 | ||
Considerations for the use of a startling acoustic stimulus in studies of motor preparation in humans. | Q37751091 | ||
Preparation for voluntary movement in healthy and clinical populations: evidence from startle. | Q37950163 | ||
Startle reveals decreased response preparatory activation during a stop-signal task | Q41002386 | ||
Stop-event-related potentials from intracranial electrodes reveal a key role of premotor and motor cortices in stopping ongoing movements. | Q41910598 | ||
Suppression of human cortico-motoneuronal excitability during the Stop-signal task | Q43291220 | ||
Relaxation from a voluntary contraction is preceded by increased excitability of motor cortical inhibitory circuits | Q44924456 | ||
Startle neural activity is additive with normal cortical initiation-related activation. | Q45972671 | ||
Cell directional spread determines accuracy, precision, and length of the neuronal population vector | Q48314254 | ||
Motor and non-motor inhibition in the Go/NoGo task: an ERP and fMRI study | Q48412061 | ||
The offset cortical potential: an electrical correlate of movement inhibition in man. | Q48491517 | ||
Mechanisms and dynamics of cortical motor inhibition in the stop-signal paradigm: a TMS study | Q48641149 | ||
Startle decreases reaction time to active inhibition | Q48802132 | ||
Cortical mechanisms related to the direction of two-dimensional arm movements: relations in parietal area 5 and comparison with motor cortex | Q48826502 | ||
Startle-induced reaction time shortening is not modified by prepulse inhibition | Q48864191 | ||
Neural control of voluntary movement initiation | Q48888981 | ||
Inhibiting responses when switching: Does it matter? | Q49117725 | ||
In search of the point of no return: the control of response processes | Q49123878 | ||
Differential relation of discharge in primary motor cortex and premotor cortex to movements versus actively maintained postures during a reaching task | Q49137861 | ||
Voluntarily-generated unimanual preparation is associated with stopping success: evidence from LRP and lateralized mu ERD before the stop signal. | Q50671499 | ||
The effects of prepulse inhibition timing on the startle reflex and reaction time. | Q51808086 | ||
Inhibitory effects on response force in the stop-signal paradigm. | Q51820169 | ||
Horse-race model simulations of the stop-signal procedure. | Q52110327 | ||
Startle response of human neck muscles sculpted by readiness to perform ballistic head movements. | Q52130950 | ||
Startle activation is additive with voluntary cortical activation irrespective of stimulus modality. | Q52150015 | ||
On the ability to inhibit simple and choice reaction time responses: A model and a method | Q52275470 | ||
Monkey primary motor and premotor cortex: single-cell activity related to prior information about direction and extent of an intended movement. | Q55059677 | ||
Impulsivity and Inhibitory Control | Q57381724 | ||
Reaction time and acoustic startle in normal human subjects | Q71526108 | ||
A horse race between independent processes: evidence for a phantom point of no return in preparation of a speeded motor response | Q73971556 | ||
Maximal voluntary force and rate of force development in humans--importance of instruction | Q74521178 | ||
Prepared movements are elicited early by startle | Q80357301 | ||
The early release of planned movement by acoustic startle can be delayed by transcranial magnetic stimulation over the motor cortex | Q82714234 | ||
Tuning curves for movement direction in the human visuomotor system | Q85167315 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 403-411 | |
P577 | publication date | 2016-11-02 | |
P1433 | published in | Journal of Neurophysiology | Q1709863 |
P1476 | title | Go-activation endures following the presentation of a stop-signal: evidence from startle | |
P478 | volume | 117 |
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