Direct and indirect activation of human corticospinal neurons by transcranial magnetic and electrical stimulation

Corticospinal volleys and surface electromyographic (EMG) responses evoked by magnetic and electrical transcranial stimulation were recorded simultaneously in three conscious human subjects. For magnetic stimulation, the figure-of-eight coil was held on the hand motor area either with the induced cu...

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Published in	Neuroscience letters Vol. 210; no. 1; pp. 45 - 48
Main Authors	Nakamura, Hiroshi, Kitagawa, Hideki, Kawaguchi, Yoshiharu, Tsuji, Haruo
Format	Journal Article
Language	English
Published	Shannon Elsevier Ireland Ltd 24.05.1996 Elsevier
Subjects	Aged Biological and medical sciences Coil orientation D and I hypothesis D wave Electric Stimulation Female Fundamental and applied biological sciences. Psychology Humans I wave Magnetics Male Middle Aged Motor control and motor pathways. Reflexes. Control centers of vegetative functions. Vestibular system and equilibration Neurons - physiology Pyramidal Tracts - cytology Transcranial electrical stimulation Transcranial magnetic stimulation Vertebrates: nervous system and sense organs D wave Coil orientation Transcranial magnetic stimulation D and I hypothesis I wave Transcranial electrical stimulation Human Pyramidal motor pathway Motor cortex Electrical stimulus Central nervous system Magnetic stimulus Electrophysiology Excitability Corticospinal bundle Electromyography Brain (vertebrata)
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ISSN	0304-3940 1872-7972
DOI	10.1016/0304-3940(96)12659-8

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Abstract	Corticospinal volleys and surface electromyographic (EMG) responses evoked by magnetic and electrical transcranial stimulation were recorded simultaneously in three conscious human subjects. For magnetic stimulation, the figure-of-eight coil was held on the hand motor area either with the induced current through the brain flowing in a postero-anterior direction (P-A stimulation) or in a latero-medial direction (L-M stimulation). For electrical stimulation, the anode was placed 7 cm lateral to the vertex and cathode at the vertex (anodal stimulation). The P-A stimulation that was generally used preferentially evoked I waves, whereas the L-M and anodal stimulation preferentially evoked D wave. The results suggested that the mode of activation by transcranial magnetic stimulation altered, depending on its current direction, and the difference between P-M magnetic and electrical stimulation can be explained by the context of the D and I hypothesis.
AbstractList	Corticospinal volleys and surface electromyographic (EMG) responses evoked by magnetic and electrical transcranial stimulation were recorded simultaneously in three conscious human subjects. For magnetic stimulation, the figure-of-eight coil was held on the hand motor area either with the induced current through the brain flowing in a postero-anterior direction (P-A stimulation) or in a latero-medial direction (L-M stimulation). For electrical stimulation, the anode was placed 7 cm lateral to the vertex and cathode at the vertex (anodal stimulation). The P-A stimulation that was generally used preferentially evoked I waves, whereas the L-M and anodal stimulation preferentially evoked D wave. The results suggested that the mode of activation by transcranial magnetic stimulation altered, depending on its current direction, and the difference between P-M magnetic and electrical stimulation can be explained by the context of the D and I hypothesis. Corticospinal volleys and surface electromyographic (EMG) responses evoked by magnetic and electrical transcranial stimulation were recorded simultaneously in three conscious human subjects. For magnetic stimulation, the figure-of-eight coil was held on the hand motor area either with the induced current through the brain flowing in a postero-anterior direction (P-A stimulation) or in a latero-medial direction (L-M stimulation). For electrical stimulation, the anode was placed 7 cm lateral to the vertex and cathode at the vertex (anodal stimulation). The P-A stimulation that was generally used preferentially evoked I waves, whereas the L-M and anodal stimulation preferentially evoked D wave. The results suggested that the mode of activation by transcranial magnetic stimulation altered, depending on its current direction, and the difference between P-M magnetic and electrical stimulation can be explained by the context of the D and I hypothesis.Corticospinal volleys and surface electromyographic (EMG) responses evoked by magnetic and electrical transcranial stimulation were recorded simultaneously in three conscious human subjects. For magnetic stimulation, the figure-of-eight coil was held on the hand motor area either with the induced current through the brain flowing in a postero-anterior direction (P-A stimulation) or in a latero-medial direction (L-M stimulation). For electrical stimulation, the anode was placed 7 cm lateral to the vertex and cathode at the vertex (anodal stimulation). The P-A stimulation that was generally used preferentially evoked I waves, whereas the L-M and anodal stimulation preferentially evoked D wave. The results suggested that the mode of activation by transcranial magnetic stimulation altered, depending on its current direction, and the difference between P-M magnetic and electrical stimulation can be explained by the context of the D and I hypothesis.
Author	Tsuji, Haruo Kawaguchi, Yoshiharu Kitagawa, Hideki Nakamura, Hiroshi
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Keywords	D wave Coil orientation Transcranial magnetic stimulation D and I hypothesis I wave Transcranial electrical stimulation Human Pyramidal motor pathway Motor cortex Electrical stimulus Central nervous system Magnetic stimulus Electrophysiology Excitability Corticospinal bundle Electromyography Brain (vertebrata)
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Snippet	Corticospinal volleys and surface electromyographic (EMG) responses evoked by magnetic and electrical transcranial stimulation were recorded simultaneously in...
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SubjectTerms	Aged Biological and medical sciences Coil orientation D and I hypothesis D wave Electric Stimulation Female Fundamental and applied biological sciences. Psychology Humans I wave Magnetics Male Middle Aged Motor control and motor pathways. Reflexes. Control centers of vegetative functions. Vestibular system and equilibration Neurons - physiology Pyramidal Tracts - cytology Transcranial electrical stimulation Transcranial magnetic stimulation Vertebrates: nervous system and sense organs
Title	Direct and indirect activation of human corticospinal neurons by transcranial magnetic and electrical stimulation
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