Spatial distribution of corticospinal potentials following transcranial electric and magnetic stimulation in human spinal cord
To investigate the spatial distribution of the human corticospinal tract in the spinal cord, evoked spinal cord potentials (ESCPs) following transcranial electrical and magnetic stimulation were recorded simultaneously from both the anterior and posterior epidural space in five anesthetized patients...
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| Published in | Journal of the Neurological Sciences Vol. 151; no. 2; pp. 217 - 221 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Shannon
Elsevier B.V
22.10.1997
Elsevier BV Elsevier Science |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0022-510X 1878-5883 |
| DOI | 10.1016/S0022-510X(97)00135-4 |
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| Abstract | To investigate the spatial distribution of the human corticospinal tract in the spinal cord, evoked spinal cord potentials (ESCPs) following transcranial electrical and magnetic stimulation were recorded simultaneously from both the anterior and posterior epidural space in five anesthetized patients. One ESCP component following transcranial electrical stimulation (D-wave) and at least two ESCP components (initially D-wave and later I-wave) following transcranial magnetic stimulation were recorded in all subjects. The negative peak latency of all the potentials recorded from the posterior epidural space was the same as that recorded anteriorly. The amplitude ratio of the ESCP following electrical stimulation (posterior/anterior) was 1.10±0.12, while that of ESCPs following magnetic stimulation was 1.08±0.12 (N1) and 1.15±0.16 (N2). These results suggest that lateral corticospinal tract descending dorsolateral fasciculus in the spinal cord is main corticospinal pathway and spatial distribution of D and I-waves are similar in the human cervical cord. |
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| AbstractList | To investigate the spatial distribution of the human corticospinal tract in the spinal cord, evoked spinal cord potentials (ESCPs) following transcranial electrical and magnetic stimulation were recorded simultaneously from both the anterior and posterior epidural space in five anesthetized patients. One ESCP component following transcranial electrical stimulation (D-wave) and at least two ESCP components (initially D-wave and later I-wave) following transcranial magnetic stimulation were recorded in all subjects. The negative peak latency of all the potentials recorded from the posterior epidural space was the same as that recorded anteriorly. The amplitude ratio of the ESCP following electrical stimulation (posterior/anterior) was 1.10±0.12, while that of ESCPs following magnetic stimulation was 1.08±0.12 (N1) and 1.15±0.16 (N2). These results suggest that lateral corticospinal tract descending dorsolateral fasciculus in the spinal cord is main corticospinal pathway and spatial distribution of D and I-waves are similar in the human cervical cord. To investigate the spatial distribution of the human corticospinal tract in the spinal cord, evoked spinal cord potentials (ESCPs) following transcranial electrical and magnetic stimulation were recorded simultaneously from both the anterior and posterior epidural space in five anesthetized patients. One ESCP component following transcranial electrical stimulation (D-wave) and at least two ESCP components (initially D-wave and later I-wave) following transcranial magnetic stimulation were recorded in all subjects. The negative peak latency of all the potentials recorded from the posterior epidural space was the same as that recorded anteriorly. The amplitude ratio of the ESCP following electrical stimulation (posterior/anterior) was 1.10 plus or minus 0.12, while that of ESCPs following magnetic stimulation was 1.08 plus or minus 0.12 (N1) and 1.15 plus or minus 0.16 (N2). These results suggest that lateral corticospinal tract descending dorsolateral fasciculus in the spinal cord is main corticospinal pathway and spatial distribution of D and I-waves are similar in the human cervical cord. To investigate the spatial distribution of the human corticospinal tract in the spinal cord, evoked spinal cord potentials (ESCPs) following transcranial electrical and magnetic stimulation were recorded simultaneously from both the anterior and posterior epidural space in five anesthetized patients. One ESCP component following transcranial electrical stimulation (D-wave) and at least two ESCP components (initially D-wave and later I-wave) following transcranial magnetic stimulation were recorded in all subjects. The negative peak latency of all the potentials recorded from the posterior epidural space was the same as that recorded anteriorly. The amplitude ratio of the ESCP following electrical stimulation (posterior/anterior) was 1.10+/-0.12, while that of ESCPs following magnetic stimulation was 1.08+/-0.12 (N1) and 1.15+/-0.16 (N2). These results suggest that lateral corticospinal tract descending dorsolateral fasciculus in the spinal cord is main corticospinal pathway and spatial distribution of D and I-waves are similar in the human cervical cord.To investigate the spatial distribution of the human corticospinal tract in the spinal cord, evoked spinal cord potentials (ESCPs) following transcranial electrical and magnetic stimulation were recorded simultaneously from both the anterior and posterior epidural space in five anesthetized patients. One ESCP component following transcranial electrical stimulation (D-wave) and at least two ESCP components (initially D-wave and later I-wave) following transcranial magnetic stimulation were recorded in all subjects. The negative peak latency of all the potentials recorded from the posterior epidural space was the same as that recorded anteriorly. The amplitude ratio of the ESCP following electrical stimulation (posterior/anterior) was 1.10+/-0.12, while that of ESCPs following magnetic stimulation was 1.08+/-0.12 (N1) and 1.15+/-0.16 (N2). These results suggest that lateral corticospinal tract descending dorsolateral fasciculus in the spinal cord is main corticospinal pathway and spatial distribution of D and I-waves are similar in the human cervical cord. To investigate the spatial distribution of the human corticospinal tract in the spinal cord, evoked spinal cord potentials (ESCPs) following transcranial electrical and magnetic stimulation were recorded simultaneously from both the anterior and posterior epidural space in five anesthetized patients. One ESCP component following transcranial electrical stimulation (D-wave) and at least two ESCP components (initially D-wave and later I-wave) following transcranial magnetic stimulation were recorded in all subjects. The negative peak latency of all the potentials recorded from the posterior epidural space was the same as that recorded anteriorly. The amplitude ratio of the ESCP following electrical stimulation (posterior/anterior) was 1.10+/-0.12, while that of ESCPs following magnetic stimulation was 1.08+/-0.12 (N1) and 1.15+/-0.16 (N2). These results suggest that lateral corticospinal tract descending dorsolateral fasciculus in the spinal cord is main corticospinal pathway and spatial distribution of D and I-waves are similar in the human cervical cord. |
| Author | Kaneko, Kazuo Kawai, Shinya Taguchi, Toshihiko Yonemura, Hiroshi Morita, Hideki Fuchigami, Yasunori Ofuji, Akira |
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| Keywords | Pyramidal tract Evoked spinal cord potentials Transcranial electrical stimulation corticospinal tract Transcranial magnetic stimulation Human Spinal cord Electrical stimulus Central nervous system Anterior Electrophysiology Corticospinal bundle Extradural space Transcranial route Spatial distribution Evoked potential Posterior Magnetic stimulus Physiology Comparative study |
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| References | Tamaki, Tsuji, Inoue, Kobayashi (BIB8) 1981; 4 Kitagawa, Møller (BIB6) 1994; 93 Berardelli, Inghilleri, Cruccu, Manfredi (BIB2) 1990; 112 Patton, Amassian (BIB7) 1954; 17 Barnes (BIB1) 1971; 24 Burke, Hicks, Gandevia, Stephen, Woodforth, Crawford (BIB3) 1993; 470 Davidoff (BIB4) 1990; 40 Kaneko, Kawai, Fuchigami, Shiraishi, Ito (BIB5) 1996; 139 Topka, Cohen, Cole, Hallett (BIB9) 1991; 41 Barnes (10.1016/S0022-510X(97)00135-4_BIB1) 1971; 24 Berardelli (10.1016/S0022-510X(97)00135-4_BIB2) 1990; 112 Topka (10.1016/S0022-510X(97)00135-4_BIB9) 1991; 41 Kaneko (10.1016/S0022-510X(97)00135-4_BIB5) 1996; 139 Kitagawa (10.1016/S0022-510X(97)00135-4_BIB6) 1994; 93 Davidoff (10.1016/S0022-510X(97)00135-4_BIB4) 1990; 40 Tamaki (10.1016/S0022-510X(97)00135-4_BIB8) 1981; 4 Burke (10.1016/S0022-510X(97)00135-4_BIB3) 1993; 470 Patton (10.1016/S0022-510X(97)00135-4_BIB7) 1954; 17 |
| References_xml | – volume: 4 start-page: 313 year: 1981 end-page: 317 ident: BIB8 article-title: The prevention of iatrogenic spinal cord injury utilizing the evoked spinal cord potentials publication-title: Int. Orthop. – volume: 139 start-page: 131 year: 1996 end-page: 136 ident: BIB5 article-title: Effect of stimulus intensity and voluntary contraction on corticospinal potentials following transcranial magnetic stimulation publication-title: J. Neurol. Sci. – volume: 93 start-page: 57 year: 1994 end-page: 67 ident: BIB6 article-title: Conduction pathway and generators of magnetic evoked spinal cord potentials: a study in monkeys publication-title: Electroencephalogr. Clin. Neurophysiol. – volume: 40 start-page: 332 year: 1990 end-page: 339 ident: BIB4 article-title: The pyramidal tract publication-title: Neurology – volume: 24 start-page: 463 year: 1971 end-page: 501 ident: BIB1 article-title: Degenerations in hemiplegia: With special reference to a ventrolateral pyramidal tract, the accessory fillet and Pick's bundle publication-title: Brain – volume: 41 start-page: 1276 year: 1991 end-page: 1283 ident: BIB9 article-title: Reorganization of corticospinal pathways following spinal cord injury publication-title: Neurology – volume: 17 start-page: 345 year: 1954 end-page: 363 ident: BIB7 article-title: Single and multiple unit analysis of cortical stage of pyramidal tract activation publication-title: J. Neurophysiol. – volume: 112 start-page: 54 year: 1990 end-page: 58 ident: BIB2 article-title: Descending volley after electrical and magnetic transcranial stimulation in man publication-title: Neurosci. Lett. – volume: 470 start-page: 383 year: 1993 end-page: 393 ident: BIB3 article-title: Direct comparison of cortico spinal volleys in human subjects to transcranial magnetic and electrical stimulation publication-title: J. Physiol. – volume: 112 start-page: 54 year: 1990 ident: 10.1016/S0022-510X(97)00135-4_BIB2 article-title: Descending volley after electrical and magnetic transcranial stimulation in man publication-title: Neurosci. Lett. doi: 10.1016/0304-3940(90)90321-Y – volume: 40 start-page: 332 year: 1990 ident: 10.1016/S0022-510X(97)00135-4_BIB4 article-title: The pyramidal tract publication-title: Neurology doi: 10.1212/WNL.40.2.332 – volume: 139 start-page: 131 year: 1996 ident: 10.1016/S0022-510X(97)00135-4_BIB5 article-title: Effect of stimulus intensity and voluntary contraction on corticospinal potentials following transcranial magnetic stimulation publication-title: J. Neurol. Sci. doi: 10.1016/S0022-510X(96)00050-0 – volume: 4 start-page: 313 year: 1981 ident: 10.1016/S0022-510X(97)00135-4_BIB8 article-title: The prevention of iatrogenic spinal cord injury utilizing the evoked spinal cord potentials publication-title: Int. Orthop. doi: 10.1007/BF00266075 – volume: 24 start-page: 463 year: 1971 ident: 10.1016/S0022-510X(97)00135-4_BIB1 article-title: Degenerations in hemiplegia: With special reference to a ventrolateral pyramidal tract, the accessory fillet and Pick's bundle publication-title: Brain doi: 10.1093/brain/24.3.463 – volume: 41 start-page: 1276 year: 1991 ident: 10.1016/S0022-510X(97)00135-4_BIB9 article-title: Reorganization of corticospinal pathways following spinal cord injury publication-title: Neurology doi: 10.1212/WNL.41.8.1276 – volume: 93 start-page: 57 year: 1994 ident: 10.1016/S0022-510X(97)00135-4_BIB6 article-title: Conduction pathway and generators of magnetic evoked spinal cord potentials: a study in monkeys publication-title: Electroencephalogr. Clin. Neurophysiol. doi: 10.1016/0168-5597(94)90092-2 – volume: 17 start-page: 345 year: 1954 ident: 10.1016/S0022-510X(97)00135-4_BIB7 article-title: Single and multiple unit analysis of cortical stage of pyramidal tract activation publication-title: J. Neurophysiol. doi: 10.1152/jn.1954.17.4.345 – volume: 470 start-page: 383 year: 1993 ident: 10.1016/S0022-510X(97)00135-4_BIB3 article-title: Direct comparison of cortico spinal volleys in human subjects to transcranial magnetic and electrical stimulation publication-title: J. Physiol. doi: 10.1113/jphysiol.1993.sp019864 |
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| SubjectTerms | Biological and medical sciences Central nervous system Cerebral Cortex Cerebral Cortex - physiology Electric Stimulation Electromagnetic Fields Electrophysiology Epidural Space Epidural Space - physiology Evoked Potentials Evoked Potentials - physiology Evoked spinal cord potentials Female Fundamental and applied biological sciences. Psychology Humans Male Middle Aged Pyramidal tract Pyramidal Tracts Pyramidal Tracts - physiology Spinal Cord Spinal Cord - physiology Transcranial electrical stimulation corticospinal tract Transcranial magnetic stimulation Vertebrates: nervous system and sense organs |
| Title | Spatial distribution of corticospinal potentials following transcranial electric and magnetic stimulation in human spinal cord |
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