Literature DB >> 2552023

Corticospinal potentials after transcranial stimulation in humans.

M Inghilleri1, A Berardelli, G Cruccu, A Priori, M Manfredi.   

Abstract

The descending volley evoked in humans by transcranial electrical stimulation of the scalp was recorded with epidural and spinal electrodes. It consisted of an early wave, which increased in amplitude and decreased in latency when the strength of the stimulus was increased. The mean conduction velocity of the early wave was 66, SD 2.5 m/s. At high stimulus intensity this wave was followed by later and smaller waves, which travel at the same speed as the initial potential. The recovery cycle of the descending volley was studied by delivering paired cortical stimuli at time intervals ranging from 0.5 to 10 ms. The early wave evoked by the test stimulus recovered to about 50% at a 1 ms interval and to 100% at a 3.5 ms interval. The later waves could not be tested at short time intervals but with time intervals longer than 3.5 ms they recovered to 100%. It is suggested that the initial and later waves after scalp stimulation are equivalent to the D and I waves seen in animal experiments.

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Year:  1989        PMID: 2552023      PMCID: PMC1031836          DOI: 10.1136/jnnp.52.8.970

Source DB:  PubMed          Journal:  J Neurol Neurosurg Psychiatry        ISSN: 0022-3050            Impact factor:   10.154


  13 in total

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Authors:  H D PATTON; V E AMASSIAN
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Authors:  B L Day; J C Rothwell; P D Thompson; J P Dick; J M Cowan; A Berardelli; C D Marsden
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3.  Responses of the pyramidal tract to stimulation of the baboon's motor cortex.

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Review 4.  Physiological basis of motor effects of a transient stimulus to cerebral cortex.

Authors:  V E Amassian; M Stewart; G J Quirk; J L Rosenthal
Journal:  Neurosurgery       Date:  1987-01       Impact factor: 4.654

5.  A method of monitoring function in corticospinal pathways during scoliosis surgery with a note on motor conduction velocities.

Authors:  S G Boyd; J C Rothwell; J M Cowan; P J Webb; T Morley; P Asselman; C D Marsden
Journal:  J Neurol Neurosurg Psychiatry       Date:  1986-03       Impact factor: 10.154

6.  Scope of a technique for electrical stimulation of human brain, spinal cord, and muscle.

Authors:  P A Merton; D K Hill; H B Morton; C D Marsden
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7.  Evoked potentials from the motor tracts in humans.

Authors:  W J Levy; D H York
Journal:  Neurosurgery       Date:  1983-04       Impact factor: 4.654

8.  The rubrospinal and central tegmental tracts in man.

Authors:  P W Nathan; M C Smith
Journal:  Brain       Date:  1982-06       Impact factor: 13.501

9.  Motor cortex stimulation in intact man. 1. General characteristics of EMG responses in different muscles.

Authors:  J C Rothwell; P D Thompson; B L Day; J P Dick; T Kachi; J M Cowan; C D Marsden
Journal:  Brain       Date:  1987-10       Impact factor: 13.501

10.  Motor conduction velocity in the human spinal cord: slowed conduction in multiple sclerosis and radiation myelopathy.

Authors:  S J Snooks; M Swash
Journal:  J Neurol Neurosurg Psychiatry       Date:  1985-11       Impact factor: 10.154
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  18 in total

1.  Spinal cord-evoked potentials and muscle responses evoked by transcranial magnetic stimulation in 10 awake human subjects.

Authors:  D A Houlden; M L Schwartz; C H Tator; P Ashby; W A MacKay
Journal:  J Neurosci       Date:  1999-03-01       Impact factor: 6.167

2.  Cortical control of spinal pathways mediating group II excitation to human thigh motoneurones.

Authors:  V Marchand-Pauvert; M Simonetta-Moreau; E Pierrot-Deseilligny
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3.  The effect of electrical stimulation of the corticospinal tract on motor units of the human biceps brachii.

Authors:  Nicolas T Petersen; Janet L Taylor; Simon C Gandevia
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4.  Further evidence to support different mechanisms underlying intracortical inhibition of the motor cortex.

Authors:  Ritsuko Hanajima; Toshiaki Furubayashi; Nobue Kobayashi Iwata; Yasushi Shiio; Shingo Okabe; Ichiro Kanazawa; Yoshikazu Ugawa
Journal:  Exp Brain Res       Date:  2003-06-27       Impact factor: 1.972

5.  Corticospinal volleys evoked by anodal and cathodal stimulation of the human motor cortex.

Authors:  D Burke; R G Hicks; J P Stephen
Journal:  J Physiol       Date:  1990-06       Impact factor: 5.182

6.  Effects of electric and magnetic transcranial stimulation on long latency reflexes.

Authors:  G Deuschl; R Michels; A Berardelli; E Schenck; M Inghilleri; C H Lücking
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7.  An electrophysiological study of the postnatal development of the corticospinal system in the macaque monkey.

Authors:  E Olivier; S A Edgley; J Armand; R N Lemon
Journal:  J Neurosci       Date:  1997-01-01       Impact factor: 6.167

8.  Preferential activation of different I waves by transcranial magnetic stimulation with a figure-of-eight-shaped coil.

Authors:  K Sakai; Y Ugawa; Y Terao; R Hanajima; T Furubayashi; I Kanazawa
Journal:  Exp Brain Res       Date:  1997-01       Impact factor: 1.972

9.  Latency of subthalamic nucleus deep brain stimulation-evoked cortical activity as a potential biomarker for postoperative motor side effects.

Authors:  Zachary T Irwin; Mohammad Z Awad; Christopher L Gonzalez; Arie Nakhmani; J Nicole Bentley; Thomas A Moore; Kenneth G Smithson; Barton L Guthrie; Harrison C Walker
Journal:  Clin Neurophysiol       Date:  2020-03-12       Impact factor: 3.708

10.  Intra-operative recording of motor tract potentials at the cervico-medullary junction following scalp electrical and magnetic stimulation of the motor cortex.

Authors:  P D Thompson; B L Day; H A Crockard; I Calder; N M Murray; J C Rothwell; C D Marsden
Journal:  J Neurol Neurosurg Psychiatry       Date:  1991-07       Impact factor: 10.154
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