Summary
The present investigation demonstrates that time-varying magnetic fields induced over the skull elicit distinct types of responses in muscles supplied by the cranial nerves both on the ipsilateral and the contralateral side. When the center of the copper coil was positioned 4 cm lateral to the vertex on a line from the vertex to the external auditory meatus, bilateral responses in the masseter, orbicularis oculi, mentalis, and sternocleidomastoideus muscles with a delay of about 10 to 14 ms after the stimulus occurred. Similar to the transcranially evoked muscle responses in hand muscles, the responses in the cranial muscles can be influenced in latency and amplitude by background excitation. It is concluded that these responses are induced by excitation of the face-associated motor cortex followed by multiple I-waves in the corticonuclear tract with both ipsilateral and contralateral projections to the corresponding motoneurones. Additionally, at higher stimulation strengths “short-latency” ipsilateral responses in muscles supplied by the trigeminal, facial, and accessory nerves occurred which we suggest are induced by direct stimulation of the peripheral cranial nerves in their intracisternal course. The present study confirms the bilateral projection of corticonuclear tracts in awake unanesthetised human subjects which has been observed by electrical stimulation on the exposed cortex during surgical procedures already decades ago. The present investigation will serve as a basis for the assessment of pathophysiological mechanisms involving the corticonuclear system or the peripheral cranial nerves in their proximal parts in awake humans.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Amassian VE, Steward M, Quirk GJ, Rosenthal JL (1987) Physiological basis of motor effects of a transient stimulus to cerebral cortex. Neurosurgery 20: 74–93
Barker AT, Jalinous R, Freeston IL (1985a) Noninvasive magnetic stimulation of the human motor cortex. Lancet I: 1106–1107
Barker AT, Freeston IL, Jalinous R, Merton PA, Morton HB (1985b) Magnetic stimulation of the human brain. J Physiol (Lond) 369: 3 P
Barker AT, Jalinous R, Freeston IL, Jarrat A (1986) Clinical evaluation of conduction time measurements in central motor pathways using magnetic stimulation of the brain. Lancet I: 1325–1326
Barker AT, Jalinous R, Freeston IL, Jarratt A (1987) Magnetic stimulation of the human brain and peripheral nervous system: an introduction and the results of an initial clinical evaluation. Neurosurgery 20: 100–109
Barnes S (1901) Degeneration in hemiplegia: with special reference to a ventrolateral pyramidal tract, the accessory fillet and Pick's bundle. Brain 24: 463–501
Benecke R, Meyer B-U, Göhmann M, Conrad B (1988) Analysis of muscle responses elicited by transcranial cortex stimulation in man. Electroencephalogr clin Neurophysiol (in press)
Cowan JMA, Dick JPR, Day BL, Rothwell JC, Marsden CD (1984) Abnormalities in central motor pathway conduction in multiple sclerosis. Lancet II: 304–307
Hess CW, Mills KR, Murray NMF (1986) Magnetic stimulation of the human brain: facilitation of motor responses by voluntary contraction of ipsilateral and contralateral muscles with additional observations on an amputee. Neurosci Lett 71: 235–240
Hoche A (1898) Beitrag zur Anatomie der Pyramidenbahn und der oberen Schleife, nebst Bemerkungen über die abnormen Bündel in Pons und Medulla oblongata. Arch Psychiat Nervenkr 30: 103–135
Ingram DA, Swash M (1987) Central motor conduction is abnormal in motor neuron disease. J Neurol Neurosurg Psychiatry 50: 159–166
Jenny AB, Saper CB (1987) Organisation of the facial nucleus and corticofacial projection in the monkey: a reconsideration of the upper motor neuron facial palsy. Neurology 37: 930–939
Kuypers HGJM (1958) Corticobulbar connexions to the pons and lower brain-stem in man. Brain 81: 364–388
Lang J (1981) Klinische Anatomie des Kopfes. Springer, Berlin Heidelberg New York, 1981
Lepore FE (1987) Bilateral cerebral ptosis. Neurology 37: 1043–1046
Marsden CD, Merton PA, Morton HB (1983) Direct electrical stimulation of corticospinal pathways through the intact scalp in human subjects. In: Desmedt JE (ed) Motor control mechanisms in health and disease. Raven Press, New York, pp 387–391
Merton PA, Morton HB (1980a) Electrical stimulation of human motor and visual cortex through the scalp. J Physiol (Lond) 305: 9–10
Merton PA, Morton HB (1980b) Stimulation of the cerebral cortex in the intact human subject. Nature 285: 227–228
Mills KR, Murray NMF (1985) Corticospinal tract conduction time in multiple sclerosis. Ann Neurol 18: 601–605
Patton HD, Amassian VE (1954) Single- and multiple-unit analysis of cortical stage of pyramidal tract activation. J Neurophysiol 17: 345–363
Patton HD, Amassian VE (1960) The pyramidal tract: its excitation and functions. In: Magoun WD (ed) Handbook of physiology and neurophysiology, Vol II. American Physiology Society, Washington DC, pp 837–861
Penfield W, Rasmussen T (1951) The cerebral cortex of man. Mac Millan, New York
Rossini PM, Marciani MG, Caramia MD, Roma V, Zarola F (1985) Nervous propagation along “central” motor pathways in intact man: characteristics of motor responses to “bifocal” and “unifocal” spine and scalp non-invasive stimulation. Electroencephalogr clin Neurophysiol 61: 272–286
Rossini PM, Caramia MD, Zarola F (1987) Mechanisms of nervous propagation along central motor pathways: noninvasive evaluation in healthy subjects and in patients with neurological disease. Neurosurgery 20: 183–191
Rothwell JC, Day BL, Thompson PD, Boyd SG, Marsden CD (1988) Motor cortical stimulation in intact man. Physiological mechanism and application in neurosurgical monitoring. Brain (in press)
Snooks SJ, Swash M (1985) Motor conduction velocity in the human spinal cord: slowed conduction in multiple sclerosis and radiation myelopathy J Neurol Neurosurg Psychol 48: 1135–1139
Thompson PD, Dick JP, Asselman P, Griffin GB, Day BL, Rothwell JC, Sheehy MP, Marsden CD (1987a) Examination of motor function in lesions of the spinal cord by stimulation of the motor cortex. Neurology 21: 389–396
Thompson PD, Dick JP, Asselman P, Griffin GB, Day BL, Cowan JMA, Rothwell JC, Sheehy MP, Marsden CD (1987b) The interpretation of the electromyographic response to stimulation of the motor cortex in diseases of the upper motor neuron. J Neurol Sci (in press)
Weidenhammer W (1896) Zur Frage der absteigenden Degeneration der medialen Schleife. Neurol Zbl 15: 191–192
Author information
Authors and Affiliations
Additional information
Supported by the Deutsche Forschungsgemeinschaft
Rights and permissions
About this article
Cite this article
Benecke, R., Meyer, B.U., Schönle, P. et al. Transcranial magnetic stimulation of the human brain: responses in muscles supplied by cranial nerves. Exp Brain Res 71, 623–632 (1988). https://doi.org/10.1007/BF00248756
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00248756