Selective suppression of the incorrect response implementation in choice behavior assessed by transcranial magnetic stimulation
Identifieur interne : 006332 ( Main/Exploration ); précédent : 006331; suivant : 006333Selective suppression of the incorrect response implementation in choice behavior assessed by transcranial magnetic stimulation
Auteurs : Christophe Tandonnet [Australie, France] ; Michael I. Garry [Australie] ; Jeffery J. Summers [Australie]Source :
- Psychophysiology [ 0048-5772 ] ; 2011-04.
English descriptors
- KwdEn :
- Accumulator, Active suppression mechanism, Amplitude, Analysis window, Burle, Choice behavior, Choice reaction time, Choice reaction time tasks, Choice task, Choice tasks, Clinical neurophysiology, Correct response, Cortical inhibition, Corticospinal, Corticospinal excitability, Corticospinal pathway, Corticospinal suppression, Decision process, Different models, Diffusion models, Duque ivry, Empty dots, Experimental brain research, Experimental session, Force sensors, Gabaa receptors, Gabab receptors, Hasbroucq, Human motor control, Imperative stimulus, Imperative stimulus onset, Implementation, Incorrect response, Incorrect response implementation, Independent accumulators, Inhibition, Inhibition models, Inhibition process, Inhibition process acts, Inhibitory inputs, Initial activation, Interstimulus interval, Intracortical, Intracortical circuits, Intracortical facilitation, Intracortical inhibition, Isis, Kujirai, Latency, Maximal stimulator output, Modulation, Motoneuronal pool, Motor control, Motor cortex, Motor implementation, Motor pathway, Motor threshold, Movement initiation, Nonresponding, Nonresponding condition, Nonresponding conditions, Nonresponding hand, Nonselected, Nonselected alternative, Nonselected response, Nonselected responses, Nonselective increase, Ongoing behavior, Ongoing implementation, Ongoing response implementation, Onset distribution, Onset latencies, Outer leds, Poststimulus time, Present data, Present results, Present study, Previous studies, Previous study, Psychological review, Pure race models, Random sequence, Reaction time, Reaction time period, Response activation process, Response execution, Response implementation, Response inhibition, Response latencies, Results favor models, Right hand, Right hands, Selective suppression, Sensorimotor cortices, Short intracortical inhibition, Sici, Silent period, Silent period duration, Single accumulator, Single accumulator models, Spatial resolution, Statistical analyses, Stimulation times, Stimulus presentation, Such modulations, Suppression, Suppression mechanism, Surface laplacian estimation, Tandonnet, Test stimulus, Time course, Time preparation, Training session, Transcranial, Vidal, Volitional inhibition.
- Teeft :
- Accumulator, Active suppression mechanism, Amplitude, Analysis window, Burle, Choice behavior, Choice reaction time, Choice reaction time tasks, Choice task, Choice tasks, Clinical neurophysiology, Correct response, Cortical inhibition, Corticospinal, Corticospinal excitability, Corticospinal pathway, Corticospinal suppression, Decision process, Different models, Diffusion models, Duque ivry, Empty dots, Experimental brain research, Experimental session, Force sensors, Gabaa receptors, Gabab receptors, Hasbroucq, Human motor control, Imperative stimulus, Imperative stimulus onset, Implementation, Incorrect response, Incorrect response implementation, Independent accumulators, Inhibition, Inhibition models, Inhibition process, Inhibition process acts, Inhibitory inputs, Initial activation, Interstimulus interval, Intracortical, Intracortical circuits, Intracortical facilitation, Intracortical inhibition, Isis, Kujirai, Latency, Maximal stimulator output, Modulation, Motoneuronal pool, Motor control, Motor cortex, Motor implementation, Motor pathway, Motor threshold, Movement initiation, Nonresponding, Nonresponding condition, Nonresponding conditions, Nonresponding hand, Nonselected, Nonselected alternative, Nonselected response, Nonselected responses, Nonselective increase, Ongoing behavior, Ongoing implementation, Ongoing response implementation, Onset distribution, Onset latencies, Outer leds, Poststimulus time, Present data, Present results, Present study, Previous studies, Previous study, Psychological review, Pure race models, Random sequence, Reaction time, Reaction time period, Response activation process, Response execution, Response implementation, Response inhibition, Response latencies, Results favor models, Right hand, Right hands, Selective suppression, Sensorimotor cortices, Short intracortical inhibition, Sici, Silent period, Silent period duration, Single accumulator, Single accumulator models, Spatial resolution, Statistical analyses, Stimulation times, Stimulus presentation, Such modulations, Suppression, Suppression mechanism, Surface laplacian estimation, Tandonnet, Test stimulus, Time course, Time preparation, Training session, Transcranial, Vidal, Volitional inhibition.
Abstract
Selecting the adequate alternative in choice situations may involve an inhibition process. Here we assessed response implementation during the reaction time of a between‐hand choice task with single‐ or paired‐pulse (3 or 15 ms interstimulus intervals [ISIs]) transcranial magnetic stimulation of the motor cortex. The amplitude of the single‐pulse motor evoked potential (MEP) initially increased for both hands. At around 130 ms, the single‐pulse MEP kept increasing for the responding hand and decreased for the nonresponding hand. The paired‐pulse MEP revealed a similar pattern for both ISIs with no effect on short intracortical inhibition and intracortical facilitation measures. The results suggest that the incorrect response implementation was selectively suppressed before execution of the correct response, preventing errors in choice context. The results favor models assuming that decision making involves an inhibition process.
Url:
DOI: 10.1111/j.1469-8986.2010.01121.x
Affiliations:
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<profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Accumulator</term>
<term>Active suppression mechanism</term>
<term>Amplitude</term>
<term>Analysis window</term>
<term>Burle</term>
<term>Choice behavior</term>
<term>Choice reaction time</term>
<term>Choice reaction time tasks</term>
<term>Choice task</term>
<term>Choice tasks</term>
<term>Clinical neurophysiology</term>
<term>Correct response</term>
<term>Cortical inhibition</term>
<term>Corticospinal</term>
<term>Corticospinal excitability</term>
<term>Corticospinal pathway</term>
<term>Corticospinal suppression</term>
<term>Decision process</term>
<term>Different models</term>
<term>Diffusion models</term>
<term>Duque ivry</term>
<term>Empty dots</term>
<term>Experimental brain research</term>
<term>Experimental session</term>
<term>Force sensors</term>
<term>Gabaa receptors</term>
<term>Gabab receptors</term>
<term>Hasbroucq</term>
<term>Human motor control</term>
<term>Imperative stimulus</term>
<term>Imperative stimulus onset</term>
<term>Implementation</term>
<term>Incorrect response</term>
<term>Incorrect response implementation</term>
<term>Independent accumulators</term>
<term>Inhibition</term>
<term>Inhibition models</term>
<term>Inhibition process</term>
<term>Inhibition process acts</term>
<term>Inhibitory inputs</term>
<term>Initial activation</term>
<term>Interstimulus interval</term>
<term>Intracortical</term>
<term>Intracortical circuits</term>
<term>Intracortical facilitation</term>
<term>Intracortical inhibition</term>
<term>Isis</term>
<term>Kujirai</term>
<term>Latency</term>
<term>Maximal stimulator output</term>
<term>Modulation</term>
<term>Motoneuronal pool</term>
<term>Motor control</term>
<term>Motor cortex</term>
<term>Motor implementation</term>
<term>Motor pathway</term>
<term>Motor threshold</term>
<term>Movement initiation</term>
<term>Nonresponding</term>
<term>Nonresponding condition</term>
<term>Nonresponding conditions</term>
<term>Nonresponding hand</term>
<term>Nonselected</term>
<term>Nonselected alternative</term>
<term>Nonselected response</term>
<term>Nonselected responses</term>
<term>Nonselective increase</term>
<term>Ongoing behavior</term>
<term>Ongoing implementation</term>
<term>Ongoing response implementation</term>
<term>Onset distribution</term>
<term>Onset latencies</term>
<term>Outer leds</term>
<term>Poststimulus time</term>
<term>Present data</term>
<term>Present results</term>
<term>Present study</term>
<term>Previous studies</term>
<term>Previous study</term>
<term>Psychological review</term>
<term>Pure race models</term>
<term>Random sequence</term>
<term>Reaction time</term>
<term>Reaction time period</term>
<term>Response activation process</term>
<term>Response execution</term>
<term>Response implementation</term>
<term>Response inhibition</term>
<term>Response latencies</term>
<term>Results favor models</term>
<term>Right hand</term>
<term>Right hands</term>
<term>Selective suppression</term>
<term>Sensorimotor cortices</term>
<term>Short intracortical inhibition</term>
<term>Sici</term>
<term>Silent period</term>
<term>Silent period duration</term>
<term>Single accumulator</term>
<term>Single accumulator models</term>
<term>Spatial resolution</term>
<term>Statistical analyses</term>
<term>Stimulation times</term>
<term>Stimulus presentation</term>
<term>Such modulations</term>
<term>Suppression</term>
<term>Suppression mechanism</term>
<term>Surface laplacian estimation</term>
<term>Tandonnet</term>
<term>Test stimulus</term>
<term>Time course</term>
<term>Time preparation</term>
<term>Training session</term>
<term>Transcranial</term>
<term>Vidal</term>
<term>Volitional inhibition</term>
</keywords>
<keywords scheme="Teeft" xml:lang="en"><term>Accumulator</term>
<term>Active suppression mechanism</term>
<term>Amplitude</term>
<term>Analysis window</term>
<term>Burle</term>
<term>Choice behavior</term>
<term>Choice reaction time</term>
<term>Choice reaction time tasks</term>
<term>Choice task</term>
<term>Choice tasks</term>
<term>Clinical neurophysiology</term>
<term>Correct response</term>
<term>Cortical inhibition</term>
<term>Corticospinal</term>
<term>Corticospinal excitability</term>
<term>Corticospinal pathway</term>
<term>Corticospinal suppression</term>
<term>Decision process</term>
<term>Different models</term>
<term>Diffusion models</term>
<term>Duque ivry</term>
<term>Empty dots</term>
<term>Experimental brain research</term>
<term>Experimental session</term>
<term>Force sensors</term>
<term>Gabaa receptors</term>
<term>Gabab receptors</term>
<term>Hasbroucq</term>
<term>Human motor control</term>
<term>Imperative stimulus</term>
<term>Imperative stimulus onset</term>
<term>Implementation</term>
<term>Incorrect response</term>
<term>Incorrect response implementation</term>
<term>Independent accumulators</term>
<term>Inhibition</term>
<term>Inhibition models</term>
<term>Inhibition process</term>
<term>Inhibition process acts</term>
<term>Inhibitory inputs</term>
<term>Initial activation</term>
<term>Interstimulus interval</term>
<term>Intracortical</term>
<term>Intracortical circuits</term>
<term>Intracortical facilitation</term>
<term>Intracortical inhibition</term>
<term>Isis</term>
<term>Kujirai</term>
<term>Latency</term>
<term>Maximal stimulator output</term>
<term>Modulation</term>
<term>Motoneuronal pool</term>
<term>Motor control</term>
<term>Motor cortex</term>
<term>Motor implementation</term>
<term>Motor pathway</term>
<term>Motor threshold</term>
<term>Movement initiation</term>
<term>Nonresponding</term>
<term>Nonresponding condition</term>
<term>Nonresponding conditions</term>
<term>Nonresponding hand</term>
<term>Nonselected</term>
<term>Nonselected alternative</term>
<term>Nonselected response</term>
<term>Nonselected responses</term>
<term>Nonselective increase</term>
<term>Ongoing behavior</term>
<term>Ongoing implementation</term>
<term>Ongoing response implementation</term>
<term>Onset distribution</term>
<term>Onset latencies</term>
<term>Outer leds</term>
<term>Poststimulus time</term>
<term>Present data</term>
<term>Present results</term>
<term>Present study</term>
<term>Previous studies</term>
<term>Previous study</term>
<term>Psychological review</term>
<term>Pure race models</term>
<term>Random sequence</term>
<term>Reaction time</term>
<term>Reaction time period</term>
<term>Response activation process</term>
<term>Response execution</term>
<term>Response implementation</term>
<term>Response inhibition</term>
<term>Response latencies</term>
<term>Results favor models</term>
<term>Right hand</term>
<term>Right hands</term>
<term>Selective suppression</term>
<term>Sensorimotor cortices</term>
<term>Short intracortical inhibition</term>
<term>Sici</term>
<term>Silent period</term>
<term>Silent period duration</term>
<term>Single accumulator</term>
<term>Single accumulator models</term>
<term>Spatial resolution</term>
<term>Statistical analyses</term>
<term>Stimulation times</term>
<term>Stimulus presentation</term>
<term>Such modulations</term>
<term>Suppression</term>
<term>Suppression mechanism</term>
<term>Surface laplacian estimation</term>
<term>Tandonnet</term>
<term>Test stimulus</term>
<term>Time course</term>
<term>Time preparation</term>
<term>Training session</term>
<term>Transcranial</term>
<term>Vidal</term>
<term>Volitional inhibition</term>
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<front><div type="abstract" xml:lang="en">Selecting the adequate alternative in choice situations may involve an inhibition process. Here we assessed response implementation during the reaction time of a between‐hand choice task with single‐ or paired‐pulse (3 or 15 ms interstimulus intervals [ISIs]) transcranial magnetic stimulation of the motor cortex. The amplitude of the single‐pulse motor evoked potential (MEP) initially increased for both hands. At around 130 ms, the single‐pulse MEP kept increasing for the responding hand and decreased for the nonresponding hand. The paired‐pulse MEP revealed a similar pattern for both ISIs with no effect on short intracortical inhibition and intracortical facilitation measures. The results suggest that the incorrect response implementation was selectively suppressed before execution of the correct response, preventing errors in choice context. The results favor models assuming that decision making involves an inhibition process.</div>
</front>
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<tree><country name="Australie"><noRegion><name sortKey="Tandonnet, Christophe" sort="Tandonnet, Christophe" uniqKey="Tandonnet C" first="Christophe" last="Tandonnet">Christophe Tandonnet</name>
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<name sortKey="Garry, Michael I" sort="Garry, Michael I" uniqKey="Garry M" first="Michael I." last="Garry">Michael I. Garry</name>
<name sortKey="Summers, Jeffery J" sort="Summers, Jeffery J" uniqKey="Summers J" first="Jeffery J." last="Summers">Jeffery J. Summers</name>
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<country name="France"><region name="Provence-Alpes-Côte d'Azur"><name sortKey="Tandonnet, Christophe" sort="Tandonnet, Christophe" uniqKey="Tandonnet C" first="Christophe" last="Tandonnet">Christophe Tandonnet</name>
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