Transcranial electrical stimulation of the motor cortex in man: further evidence for the site of activation

1. The motor cortex was stimulated electrically (vertex anode; cathode 6 cm lateral) in neurologically normal subjects undergoing surgery for scoliosis, and the evoked corticospinal volleys were recorded from the spinal cord using epidural electrodes. 2. Stimuli > 330 V produced a complex D-wave...

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Bibliographic Details
Published in:The Journal of physiology 1994-11, Vol.481 (Pt 1), p.243-250
Main Authors: Rothwell, J, Burke, D, Hicks, R, Stephen, J, Woodforth, I, Crawford, M
Format: Article
Language:English
Subjects:
Adolescent
Adult
Brain Stem - physiology
Child
Electric Stimulation - methods
Female
Humans
Male
Motor Cortex - physiology
Neural Conduction - physiology
Spinal Cord - physiology
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Summary:1. The motor cortex was stimulated electrically (vertex anode; cathode 6 cm lateral) in neurologically normal subjects undergoing surgery for scoliosis, and the evoked corticospinal volleys were recorded from the spinal cord using epidural electrodes. 2. Stimuli > 330 V produced a complex D-wave volley containing three separate peaks, with high-threshold components, 0.8 ms (D2) and 1.6 ms (D3), in advance of the lowest-threshold component (D1). As stimuli increased up to 1500 V, D3 replaced the later components completely, but there was no further latency 'jump'. 3. Brainstem stimulation using electrodes over each mastoid process produced a descending volley that had the same latencies as D3. At threshold, stimulation of the brainstem or spinal cord attenuated the D wave evoked by simultaneous cortical stimulation. 4. It is concluded that transcranial electrical stimulation of the motor cortex at high intensities can access corticospinal neurones at the pyramidal decussation, and that stimulation of the brainstem (and the spinal cord) preferentially accesses corticospinal axons. At threshold, motor cortex stimulation probably activates corticospinal neurones at or near the cerebral cortex.
ISSN:0022-3751
1469-7793
DOI:10.1113/jphysiol.1994.sp020435