Stopping a manual response requires suppression of the primary motor cortex (M1) and has been linked to activation of the striatum. Here, we test three hypotheses regarding the role of the striatum in stopping: striatum activation during successful stopping may reflect suppression of M1, anticipation of a stop-signal occurring, or a slower response build-up.Twenty-four healthy volunteers underwent functional magnetic resonance imaging (fMRI) while performing a stop-signal paradigm, in which anticipation of stopping was manipulated using a visual cue indicating stop-signal probability, with their right hand. We observed activation of the striatum and deactivation of left M1 during successful versus unsuccessful stopping. In addition, striatu...
The stop-signal paradigm is increasingly being used as a probe of response inhibition in basic and c...
This pre-registered experiment sought to uncover the temporal relationship between the inferior fron...
Abstract Background Our previous work described the neural processes of motor response inhibition du...
Stopping a manual response requires suppression of the primary motor cortex (M1) and has been linked...
Successful response inhibition relies on the suppression of motor cortex activity. The striatum has ...
We used functional magnetic resonance imaging (fMRI) to study the role of the striatum in inhibitory...
Stopping an action in response to an unexpected event requires both that the event is attended to, a...
The ability to stop ongoing motor responses in a split-second is a vital element of human cognitive ...
Successful behavior requires a finely-tuned interplay of initiating and inhibiting motor programs to...
Rapidly stopping action engages a network in the brain including the right pre-supplementary motor a...
Inhibitory motor control is a core function of cognitive control. Evidence from diverse experimental...
Often we must balance being prepared to act quickly with being prepared to suddenly stop. The stop s...
Often we must balance being prepared to act quickly with being prepared to suddenly stop. The stop s...
12th Annnual Meeting of the Cognitive-Neuroscience-Society, New York, NY, APR 09-12, 2005Internation...
Cai W, George JS, Verbruggen F, Chambers CD, Aron AR. The role of the right presupplementary motor a...
The stop-signal paradigm is increasingly being used as a probe of response inhibition in basic and c...
This pre-registered experiment sought to uncover the temporal relationship between the inferior fron...
Abstract Background Our previous work described the neural processes of motor response inhibition du...
Stopping a manual response requires suppression of the primary motor cortex (M1) and has been linked...
Successful response inhibition relies on the suppression of motor cortex activity. The striatum has ...
We used functional magnetic resonance imaging (fMRI) to study the role of the striatum in inhibitory...
Stopping an action in response to an unexpected event requires both that the event is attended to, a...
The ability to stop ongoing motor responses in a split-second is a vital element of human cognitive ...
Successful behavior requires a finely-tuned interplay of initiating and inhibiting motor programs to...
Rapidly stopping action engages a network in the brain including the right pre-supplementary motor a...
Inhibitory motor control is a core function of cognitive control. Evidence from diverse experimental...
Often we must balance being prepared to act quickly with being prepared to suddenly stop. The stop s...
Often we must balance being prepared to act quickly with being prepared to suddenly stop. The stop s...
12th Annnual Meeting of the Cognitive-Neuroscience-Society, New York, NY, APR 09-12, 2005Internation...
Cai W, George JS, Verbruggen F, Chambers CD, Aron AR. The role of the right presupplementary motor a...
The stop-signal paradigm is increasingly being used as a probe of response inhibition in basic and c...
This pre-registered experiment sought to uncover the temporal relationship between the inferior fron...
Abstract Background Our previous work described the neural processes of motor response inhibition du...