МЕТОД КОРТИКО-КОРТИКАЛЬНЫХ ВЫЗВАННЫХ ПОТЕНЦИАЛОВ В НЕЙРОХИРУРГИЧЕСКОЙ ПРАКТИКЕ
https://doi.org/10.17650/1683-3295-2016-0-2-73-78
Аннотация
Ключевые слова
Об авторах
Нина Владимировна ЧищинаРоссия
Джамиль Афетович Рзаев
Россия
Галина Ивановна Мойсак
Россия
Список литературы
1. Adrian, E. The spread of activity in the cerebral cortex. The Journal of Physiology.1936; 88(2), pp.127-161.
2. Almashaikhi, T., Rheims, S., Jung, J., Ostrowsky-Coste, K., Montavont, A., De Bellescize, J., Arzimanoglou, A., Keo Kosal, P., Guйnot, M., Bertrand, O. and Ryvlin, P. Functional connectivity of insular efferences. Human Brain Mapping, 2014; 35(10), pp.5279-5294.
3. Almashaikhi, T., Rheims, S., Ostrowsky-Coste, K., Mon-tavont, A., Jung, J., De Bellescize, J., Arzimanoglou, A., Keo Kosal, P., Guйnot, M., Bertrand, O. and Ryvlin, P. Intrainsular functional connectivity in human. Human Brain Mapping, 2013; 35(6), pp.2779-2788.
4. Brazier, M. Evoked responses recorded from the depths of the human brain. Annals of the New York Academy of Sciences. 1964, 112(1), pp.33-59.
5. Brugge, J. Functional Connections Between Auditory Cortex on Heschl’s Gyrus and on the Lateral Superior Temporal Gyrus in Humans. Journal of Neurophysiology, 2003; 90(6), pp.3750-3763.
6. Catenoix, H., Magnin, M., Guйnot, M., Isnard, J., Maugnuire, F. and Ryvlin, P. Hippocampal-orbitofrontal connectivity in human: An electrical stimulation study. Clinical Neurophysiology, 2005; 116(8), pp.1779-1784.
7. Catenoix, H., Magnin, M., Maugurnre, F. and Ryvlin, P. Evoked potential study of hippocampal efferent projections in the human brain. Clinical Neurophysiology, 2011; 122(12), pp.2488-2497.
8. Conner, C., Ellmore, T., DiSano, M., Pieters, T., Potter, A. and Tandon, N. Anatomic and electro-physiologic connectivity of the language system: A combined DTI-CCEP study. Computers in Biology and Medicine, 2011; 41(12), pp.1100-1109.
9. David, O., Bastin, J., Chabardffi, S., Minotti, L. and Kahane, P. Studying Network Mechanisms Using Intracranial Stimulation in Epileptic Patients. Front. Syst. Neurosci., 2010; 4.
10. David, O., Job, A., De Palma, L., Hoffmann, D., Minotti, L. and Kahane, P. Probabilistic functional tractography of the human cortex. NeuroImage, 2013, 80, pp.307-317.
11. Enatsu, R., Jin, K., Elwan, S., Kubota, Y., Piao, Z., O’Connor, T., Horning, K., Burgess, R., Bingaman, W. and Nair, D. Correlations between ictal propagation and response to electrical cortical stimulation: A cortico-cortical evoked potential study. Epilepsy Research, 2012; 101(1-2), pp.76-87.
12. Enatsu, R., Piao, Z., O’Connor, T., Horning, K., Mosher, J., Burgess, R., Bingaman, W. and Nair, D. Cortical excitability varies upon ictal onset patterns in neocortical epilepsy: A cortico-cortical evoked potential study. Clinical Neurophysiology, 2012; 123(2), pp.252-260.
13. Enatsu, R., Matsumoto, R., Piao, Z., O’Connor, T., Horning, K., Burgess, R., Bulacio, J., Bingaman, W. and Nair, D. Cortical negative motor network in comparison with sensorimotor network: A cortico-cortical evoked potential study. Cortex, 2013; 49(8), pp.2080-2096.
14. Enatsu, R., Kubota, Y., Kakisaka, Y., Bulacio, J., Piao, Z., O’Connor, T., Horning, K., Mosher, J., Burgess, R., Bingaman, W. and Nair, D. Reorganization of posterior language area in temporal lobe epilepsy: A cortico-cortical evoked potential study. Epilepsy Research, 2013; 103(1), pp.73-82.
15. Entz, L., Tth, E., Keller, C., Bickel, S., Groppe, D., Fab, D., Kozk, L., Erss, L., Ulbert, I. and Mehta, A. Evoked effective connectivity of the human neocortex. Human Brain Mapping, 2014; 35(12), pp.5736-5753.
16. Entz, L., Toth, E., Keller, C., Groppe, D., Megevand, P., Fabo, D., Ulbert, I., Eross, L. and Mehta, A. The Human Neocortex Demonstrates Projectors and Receivers of Influence. Neurosurgery, 2014, 193; 61, p.224.
17. Garell, P., Bakken, H., Greenlee, J., Volkov, I., Reale, R., Oya, H., Kawasaki, H., Howard, M. and Brugge, J. Functional Connection Between Posterior Superior Temporal Gyrus and Ventrolateral Prefrontal Cortex in Human. Cerebral Cortex, 2012; 23(10), pp.2309-2321.
18. Greenlee, J. A Functional Connection Between Inferior Frontal Gyrus and Orofacial Motor Cortex in Human. Journal of Neurophysiology, 2004; 92(2), pp.1153-1164.
19. Ikeda, A. Role of primary sensorimotor cortices in generating inhibitory motor response in humans. Brain, 2000; 123(8), pp.1710-1721.
20. Iwasaki M, Enatsu R, Matsumoto R, Novak E, Thankappen B, Piao Z, O’Connor T, Horning K, Bingaman W, Nair D. Accentuated cortico-cortical evoked potentials in neocortical epilepsy in areas of ictal onset. Epileptic Disord, 2010; 12 (4): 292-302.
21. Jones, E. and Wise, S. Size, laminar and columnar distribution of efferent cells in the sensory-motor cortex of monkeys. The Journal of Comparative Neurology, 1977; 175(4), pp.391-437.
22. Keller, C., Bickel, S., Entz, L., Ulbert, I., Milham, M., Kelly, C. and Mehta, A. Intrinsic functional architecture predicts electrically evoked responses in the human brain. Proceedings of the National Academy of Sciences, 2011;108(25), pp.10308-10313.
23. Kikuchi, T., Matsumoto, R., Mikuni, N., Yokoyama, Y., Matsumoto, A., Ikeda, A., Fukuyama, H., Miyamoto, S. and Hashimoto, N. Asymmetric bilateral effect of the supplementary motor area proper in the human motor system. Clinical Neurophysiology, 2012; 123(2), pp.324-334.
24. Koubeissi, M., Lesser, R., Sinai, A., Gaillard, W., Franaszczuk, P. and Crone, N. Connectivity between Perisylvian and Bilateral Basal Temporal Cortices. Cerebral Cortex, 2011; 22(4), pp.918-925.
25. Kubota, Y., Enatsu, R., Gonzalez-Martinez, J., Bulacio, J., Mosher, J., Burgess, R. and Nair, D. In vivo human hippocampal cingulate connectivity: A corticocortical evoked potentials (CCEPs) study. Clinical Neurophysiology, 2013, 124(8), pp.1547-1556.
26. Lacruz, M., Garcna Seoane, J., Valentin, A., Selway, R. and Alarcуn, G. Frontal and temporal functional connections of the living human brain. European Journal of Neuroscience, 2007, 26(5), pp.1357-1370.
27. Matsumoto, R. Functional connectivity in the human language system: a cortico-cortical evoked potential study.Brain, 2004; 127(10), pp.2316-2330.
28. Matsumoto, R., Kinoshita, M., Taki, J., Hitomi, T., Mikuni, N., Shibasaki, H., Fukuyama, H., Hashimoto, N. and Ikeda, A. In Vivo Epileptogenicity of Focal Cortical Dysplasia: A Direct Cortical Paired Stimulation Study. Epilepsia,2005; 46(11), pp.1744-1749.
29. Matsumoto, R., Nair, D., LaPresto, E., Bingaman, W., Shibasaki, H. and Luders, H. Functional connectivity in human cortical motor system: a cortico-cortical evoked potential study. Brain, 2006, 130(1), pp.181-197.
30. Matsumoto, R., Nair, D., Ikeda, A., Fumuro, T., LaPresto, E., Mikuni, N., Bingaman, W., Miyamoto, S., Fukuyama, H., Takahashi, R., Najm, I., Shibasaki, H. and Loeders, H. Parieto-frontal network in humans studied by cortico-cortical evoked potential. Human Brain Mapping, 2011; 33(12), pp.2856-2872.
31. Matsuzaki, N., Juhösz, C. and Asano, E. Cortico-cortical evoked potentials and stimulation-elicited gamma activity preferentially propagate from lower- to higher-order visual areas. Clinical Neurophysiology, 2013; 124(7), pp.1290-1296.
32. Nathan, S., Sinha, S., Gordon, B., Lesser, R. and Thakor, N. Determination of current density distributions generated by electrical stimulation of the human cerebral cortex. Electroencephalography and Clinical Neurophysiology, 1993; 86(3), pp.183-192.
33. Rosenberg, D., Mauguiere, F., Catenoix, H., Faillenot, I. and Magnin, M. Reciprocal Thalamocortical Connectivity of the Medial Pulvinar: A Depth Stimulation and Evoked Potential Study in Human Brain. Cerebral Cortex, 2008; 19(6), pp.1462-1473.
34. Rutecki, P., Grossman, R., Armstrong, D. and Irish-Loewen, S. Electrophysiological connections between the hippocampus and entorhinal cortex in patients with complex partial seizures. Journal of Neurosurgery, 1989; 70(5), pp.667-675.
35. Saito, T., Tamura, M., Muragaki, Y., Maruyama, T., Kubota, Y., Fukuchi, S., Nitta, M., Chernov, M., Okamoto, S., Sugiyama, K., Kurisu, K., Sakai, K., Okada, Y. and Iseki, H. Intraoperative cortico-cortical evoked potentials for the evaluation of language function during brain tumor resection: initial experience with
36. cases. Journal of Neurosurgery, 2014; 121(4), pp.827-838.
37. Song, S., Sun, S., Ramsbottom, M., Chang, C., Russell, J. and Cross, A. Dysmyelination Revealed through MRI as Increased Radial (but Unchanged Axial) Diffusion of Water. NeuroImage, 2002; 17(3), pp.1429-1436.
38. Song, S., Sun, S., Ju, W., Lin, S., Cross, A. and Neufeld, A. Diffusion tensor imaging detects and differentiates axon and myelin degeneration in mouse optic nerve after retinal ischemia. NeuroImage, 2003; 20(3), pp.1714-1722.
39. Swann, N., Cai, W., Conner, C., Pieters, T., Claffey, M., George, J., Aron, A. and Tandon, N. Roles for the presupplementary motor area and the right inferior frontal gyrus in stopping action: Electrophysiological responses and functional and structural connectivity. NeuroImage, 2012; 59(3), pp.2860-2870.
40. Terada, K., Usui, N., Umeoka, S., Baba, K., Mihara, T., Matsuda, K., Tottori, T., Agari, T., Nakamura, F. and Inoue, Y. Interhemispheric Connection of Motor Areas in Humans. Journal of Clinical Neurophysiology, 2008; 25(6), pp.351-356.
41. Terada, K., Umeoka, S., Usui, N., Baba, K., Usui, K., Fujitani, S., Matsuda, K., Tottori, T., Nakamura, F. and Inoue, Y. Uneven interhemispheric connections between left and right primary sensori-motor areas. Human Brain Mapping, 2011; 33(1), pp.14-26.
42. Umeoka, S., Terada, K., Baba, K., Usui, K., Matsuda, K., Tottori, T., Usui, N., Nakamura, F., Inoue, Y., Fujiwara, T. and Mihara, T. Neural connection between bilateral basal temporal regions: cortico-cortical evoked potential analysis in patients with temporal lobe epilepsy. Neurosurgery,2009, 64(5), pp.847-855.
43. Wilson, C., Isokawa, M., Babb, T. and Crandall, P. Functional connections in the human temporal lobe. Exp Brain Res, 1990; 82(2).
44. Wilson, C., Isokawa, M., Babb, T., Crandall, P., Levesque, M. and Engel, J. Functional connections in the human temporal lobe. Exp Brain Res, 1991; 85(1).
45. Wrench, J., Matsumoto, R., Inoue, Y. and Wilson, S. Current challenges in the practice of epilepsy surgery. Epilepsy & Behavior, 2011; 22(1), pp.23-31.
46. Yamao, Y., Matsumoto, R., Kunieda, T., Arakawa, Y., Kobayashi, K., Usami, K., Shibata, S., Kikuchi, T., Sawamoto, N., Mikuni, N., Ikeda, A., Fukuyama, H. and Miyamoto, S. Intraoperative dorsal language network mapping by using single-pulse electrical stimulation. Human Brain Mapping, 2014, 35(9), pp.4345-4361.
Рецензия
Для цитирования:
Чищина Н.В., Рзаев Д.А., Мойсак Г.И. МЕТОД КОРТИКО-КОРТИКАЛЬНЫХ ВЫЗВАННЫХ ПОТЕНЦИАЛОВ В НЕЙРОХИРУРГИЧЕСКОЙ ПРАКТИКЕ. Нейрохирургия. 2016;(2):73-78. https://doi.org/10.17650/1683-3295-2016-0-2-73-78
For citation:
Chishchina N.V., Rzaev J.A., Moisak G.I. The method of corticocortical evoked potentials in neurosurgical practice. Russian journal of neurosurgery. 2016;(2):73-78. (In Russ.) https://doi.org/10.17650/1683-3295-2016-0-2-73-78