In a simple reaction time (RT) paradigm, magnetic stimulation of different intensities was delivered over different scalp positions and at variable delays before (negative) or after (positive) the go-signal. Magnetic stimulation shortened RT to different go-signals (auditory, visual and somatosensory stimuli) by approxim-ately 30 ms when delivered over the motor cortex contralateral to the responding arm at intensities below motor threshold. This effect was maximal at a delay of approximately + 10 ms. A similar effect was found with suprathreshold stimulation to the ipsilateral motor cortex. Magnetic stimulation over other scalp areas did not affect RT regardless of the delay. No differences were found between the effects on elbow flexion a...
The goal of this thesis was to examine the subcortical storage and triggering hypothesis proposed by...
Seated subjects were instructed to react to an auditory cue by simultaneously contracting the tibial...
International audienceSingle-pulse transcranial magnetic stimulations (TMSs) of the motor cortex (M1...
25th Annual Meeting of the Society-for-Neuroscience, SAN DIEGO, CA, NOV 11-16, 1995International aud...
We explored the brain\u27s ability to quickly prevent a pre-potent but unwanted motor response. To a...
We studied in humans the effects of transcranial stimulation of cortical motor areas on the executio...
Experiments were undertaken to study the effect on voluntary movement of an electrical or magnetic s...
Objective: Slow frequency repetitive transcranial magnetic stimulation (rTMS) reduces motor cortex e...
Item does not contain fulltextOBJECTIVE: Slow frequency repetitive transcranial magnetic stimulation...
The process of movement execution can be separated into two sections; the foreperiod and the respons...
International audienceChanges in cortico-spinal excitability related to time and event preparation w...
The purpose of this study was to investigate the time-course of corticospinal excitability during re...
ObjectiveThe time course of the right motor cortex excitability in relation to a task-related volunt...
In reaction time (RT) tasks corticospinal excitability (CSE) rises just prior to movement. This is p...
Behavioral studies using motor preparation paradigms have revealed that increased expectancy of a re...
The goal of this thesis was to examine the subcortical storage and triggering hypothesis proposed by...
Seated subjects were instructed to react to an auditory cue by simultaneously contracting the tibial...
International audienceSingle-pulse transcranial magnetic stimulations (TMSs) of the motor cortex (M1...
25th Annual Meeting of the Society-for-Neuroscience, SAN DIEGO, CA, NOV 11-16, 1995International aud...
We explored the brain\u27s ability to quickly prevent a pre-potent but unwanted motor response. To a...
We studied in humans the effects of transcranial stimulation of cortical motor areas on the executio...
Experiments were undertaken to study the effect on voluntary movement of an electrical or magnetic s...
Objective: Slow frequency repetitive transcranial magnetic stimulation (rTMS) reduces motor cortex e...
Item does not contain fulltextOBJECTIVE: Slow frequency repetitive transcranial magnetic stimulation...
The process of movement execution can be separated into two sections; the foreperiod and the respons...
International audienceChanges in cortico-spinal excitability related to time and event preparation w...
The purpose of this study was to investigate the time-course of corticospinal excitability during re...
ObjectiveThe time course of the right motor cortex excitability in relation to a task-related volunt...
In reaction time (RT) tasks corticospinal excitability (CSE) rises just prior to movement. This is p...
Behavioral studies using motor preparation paradigms have revealed that increased expectancy of a re...
The goal of this thesis was to examine the subcortical storage and triggering hypothesis proposed by...
Seated subjects were instructed to react to an auditory cue by simultaneously contracting the tibial...
International audienceSingle-pulse transcranial magnetic stimulations (TMSs) of the motor cortex (M1...