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Neuro-Ophthalmology Volume 11, 1991 - Issue 4
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Original Article

Lack of oculomotor response after transcranial magnetic stimulation

K. Wessel Department of Neurology, Medical University, Ratzeburger Allee 160, D-2400, Lubeck, FRG
,
D. Kömpf Department of Neurology, Medical University, Ratzeburger Allee 160, D-2400, Lubeck, FRG
,
W. Klostermann Department of Neurology, Medical University, Ratzeburger Allee 160, D-2400, Lubeck, FRG
&
A. Moser Department of Neurology, Medical University, Ratzeburger Allee 160, D-2400, Lubeck, FRG
Pages 199-208 | Accepted 16 Nov 1990, Published online: 08 Jul 2009

References

  • Ferrier D. Experiments on the brains of monkeys. Phil Trans Lond (Croonian Lecture) 1875; 165: 433–488
  • Livingston R B. Ipsilaterale und kontralaterale Augenbewegungen nach elektrischer Reizung des frontalen okulomotorischen Gebietes des Affen. Arch Psychiat Zschr Neurol 1950; 185: 690–700
  • Mettler F A. Supratentorial mechanisms influencing the oculomotor apparatus. The Oculomotor System, M B Bender. Harper & Row, New York/Evanston/London 1964; 1–17
  • Pasik P, Pasik T. Oculomotor functions in monkeys with lesions of the cerebrum and the superior colliculi. The Oculomotor System, M B Bender. Harper & Row, New York/Evanston/London 1964; 40–86
  • Wagman J H. Eye movements induced by electric stimulation of cerebrum in monkeys and their relationship to bodily movements. The Oculomotor System, M B Bender. Harper & Row, New York/Evanston/London 1964; 18–39
  • Holmes G. The cerebral integration of the ocular movements. Br Med J 1938; 2: 107–112
  • Schiller P H. The effect of superior colliculus ablation on saccades elicited by cortical stimulation. Brain Res 1977; 122: 154–156
  • Schiller P H, True S D, Conway J L. Deficits in eye movements following frontal eye field and superior colliculus ablations. J Neurophysiol 1980; 44: 1175–1189
  • Bizzi E, Schiller P H. Discharge of frontal eye field neurons during and following eye movements in unanesthetized monkeys. Exp Brain Res 1968; 10: 68–80
  • Bizzi E, Schiller P H. Single unit activity in the frontal eye fields of unanesthetized monkeys during head and eye movement. Exp Brain Res 1970; 10: 151–158
  • Wurtz R H, Mohler C W. Enhancement of visual responses in monkey striate cortex and frontal eye fields. J Neurophysiol 1976; 39: 766–772
  • Goldberg M E, Bushnell M C. Behavioral enhancement of visual responses in monkey cerebral cortex. II. Modulation in frontal eye fields specifically related to saccades. J Neurophysiol 1981; 46: 773–787
  • Bruce C J, Goldberg M E. Primate frontal eye fields. I. Single neurons discharging before saccades. J Neurophysiol 1985; 53: 603–635
  • Bruce C J, Goldberg M E, Bushnell M C, Stanton G B. Primate frontal eye fields. II. Physiological and anatomical correlates of electrically evoked eye movements. J Neurophysiol 1985; 54: 714–734
  • Merton P A, Morton H B. Electrical stimulation of human motor and visual cortex through the scalp. J Physiol 1980; 305: 9–10a
  • Merton P A, Morton H B. Stimulation of the cerebral cortex in the intact human subject. Nature 1980; 285: 227–228b
  • Merton P A, Morton H B, Hill D K, Marsden C D. Scope of a technique for electrical stimulation of human brain, spinal cord, and muscle. Lancet 1982; ii: 597–600
  • Barker A T, Jalinous R, Freeston I L. Noninvasive magnetic stimulation of the human motor cortex. Lancet 1985; i: 1106–1107
  • Barker A T, Jalinous R, Freeston I L, Jannat A. Clinical evaluation of conduction time measurements in central motor pathways using magnetic stimulation of the brain. Lancet 1986; i: 1325–1326
  • Barker A T, Jalinous R, Freeston I L, Jannat A. Magnetic stimulation of the human brain and peripheral nervous system: an introduction and the results of an initial clinical evaluation. Neurosurgery 1987; 20: 200–209
  • Hess C W, Mills K R, Murray N MF. Responses in small hand muscles from magnetic stimulation of the human brain. J Physiol 1987; 388: 397–419
  • Claus D, Mills K R, Murray N MF. Facilitation of muscle responses to magnetic brain stimulation by mechanical stimuli in man. Exp Brain Res 1988; 71: 273–278
  • Murray N MT, Hess C W, Mills K R, Schiefer T, Smith S JM. Proximal facial nerve conduction using magnetic stimulation. Electroencephalogr Clin Neurophysiol 1987; 66: S 71
  • Benecke R, Meyer B U, Schonle P, Conrad B. Transcranial magnetic stimulation of the human brain: responses in muscles supplied by cranial nerves. Exp Brain Res 1988; 71: 623–632
  • Schriefer T N, Mills K R, Murray N MF, Hess C W. Evaluation of proximal facial nerve conduction by transcranial magnetic stimulation. J Neurol Neurosurg Psychiat 1988; 51: 60–66
  • Meyer B U, Britton T C, Benecke R. Investigation of unilateral facial weakness: magnetic stimulation of the proximal facial nerve and of the face-associated motor cortex. J Neurol 1989; 236: 102–107
  • Penfield W, Jasper H. Epilepsy and the Functional Anatomy of the Human Brain. Little Brown, Boston 1954
  • Robinson D A, Fuchs A F. Eye movements evoked by stimulation of frontal eye fields. J Neurophysiol 1969; 32: 637–648
  • Bruce C J, Goldberg M E. Physiology of the frontal eye fields. Trends Neurosci 1984; 7: 436–441
  • Vogt C, Vogt O. Allgemeine Ergebnisse unserer Hirnforschung. Psychol Neurol (Leipzig) 1919; 25: 221–462
  • Walker E A, Weaver T A. Ocular movements from the occipital lobe in the monkey. J Neurophysiol 1940; 3: 353–357
  • Fleming J FR, Crosby E C. The parietal lobe as an additional motor area. J Comp Neurol 1955; 103: 485–512
  • Lynch J C. The functional organization and posterior parietal association cortex. Behav Brain Sci 1981; 3: 485–534
  • Keating E G, Gooley S G, Pratt S E, Kelsey J E. Removing the superior colliculus silences eye movements normally evoked from stimulation of the parietal and occipital eye fields. Brain Res 1983; 269: 145–148
  • Keating E G, Gooley S G. Disconnection of parietal and occipital access to the saccadic oculomotor system. Exp Brain Res 1988; 70: 385–398
  • Shibutani H, Sakata H, Hyvarinen J. Saccade and blinking evoked by microstimulation of the posterior parietal association cortex of the monkey. Exp Brain Res 1984; 55: 1–8
  • Barbas H, Mesulam M M. Organization of afferent input to subdivisions of area 8a in the rhesus monkey. J Comp Neurol 1981; 200: 407–431
  • Eidelberg D, Galaburda A. Inferior parietal lobule. Divergent architectonic asymmetries in the human brain. Arch Neurol 1984; 41: 843–852
  • Tusa R J. Cortical control of eye movements. Physiological Aspects of Clinical Neurophthalmology., C Kennard, C C Rose. Chapman Hall Medical, New York 1988
  • Foerster O. Motorische Felder und Bahnen. Handbuch der Neurologie, O Bumke, O Foerster. Springer, Berlin 1936; Vol 6: 1–357
  • Creutzfeldt O. Cortex Cerebri. Springer, Berlin/Heidelberg/New York 1983
  • Wiesendanger M. Organization of secondary motor areas of the cerebral cortex. Handbook of Physiology. The Nervous System Vol II, Motor Control., J M Brookhart, V B Mountcastle. Am Physiol Society, Belhesda 1981
  • Kennard C. Higher control mechanisms of saccadic eye movements. Trans Ophthalmol Soc UK 1986; 105: 705–708
  • Hikosaka O, Wurtz R H. The basal ganglia. The Neurobiology of Saccadic Eye Movements, R H Wurtz, M E Goldberg. Elsevier, Amsterdam/New York/Oxford 1989; 257–281
  • Künzle H, Akert K. Efferent connections of cortical area 8 (frontal eye field) in Macaca fascicularis: a reinvestigation using the autoradiographic technique. J Comp Neurol 1977; 173: 147
  • Leichnetz G R. The prefrontal cortico-oculomotor trajectories in the monkey: a possible explanation for the effects of stimulation/lesion experiments on eye movement. J Neurol Sci 1981; 49: 387–396
  • Leichnetz G R, Smith D J, Spencer R F. Cortical projections to the paramedian tegmental and basilar pons in the monkey. J Comp Neurol 1984; 228: 388–408
  • Schnyder H, Reisini H, Hepp K, Henn V. Frontal eye field projection to the paramedian pontine reticular formation traced with wheat germ agglutinin in the monkey. Brain Res 1985; 329: 151–160
  • Fries W. Cortical projections to the superior colliculus in the macaque monkey: a retrograde study using horseradish-peroxidase. J Comp Neurol 1984; 230: 55–76
  • Weber J T, Yin T CT. Subcortical projections at the inferior parietal cortex (area 7) in the stump-tailed monkey. J Comp Neurol 1984; 224: 206–230
  • Lynch J C, Graybiel A M, Lobeck L J. The differential projection of two cytoarchitectonic subregions of the inferior parietal lobule of macaque upon the deep layers of the superior colliculus. J Comp Neurol 1985; 235: 241–254
  • Wurtz R H, Albano J E. Visual motor function of the primate superior colliculus. Ann Rev Neurosci 1980; 3: 189
  • Sparks D L, Mays L E. Movement fields of saccade-related burst neurons in the monkey superior colliculus. Brain Res 1980; 190: 39
  • Henn V, Lang W, Hepp K, Reisine H. Experimental gaze palsies in monkeys and their relation to human pathology. Brain 1984; 107: 619–636
  • Tsutsui J, Takeda J, Ichihashi S, Kimura H, Shirabe T. Ocular motor apraxia and lesions of the visual association area. Neuro-Ophthalmology 1980; 1: 149–154
  • Andersen R A, Gnadt J W. Posterior parietal cortex. The Neurobiology of Saccadic Eye Movements, R H Wurtz, M E Goldberg. Elsevier, Amsterdam/New York/Oxford 1989; 315–335
  • Guitton D, Buchtel H A, Douglas R M. Frontal lobe loss in man causes difficulties in suppressing reflexive glances and in generating goal-directed saccades. Exp Brain Res 1985; 58: 455–472
  • Deng S Y, Goldberg M E, Segraves M A, Ungerleider L G, Mishkin M. The effect of unilateral ablation of the frontal eye fields on saccadic performance in the monkey. Adaptive Processes in Visual and Oculomotor Systems, E L Keller, D S Zee, Oxford 1986; 201–208
  • Goldberg M E, Segraves M A. The visual and frontal cortices. The Neurobiology of Saccadic Eye Movements, R H Wurtz, M E Goldberg. Elsevier, Amsterdam/New York/Oxford 1989; 283–313
  • Tusa R J, Zee D S, Herdmann S J. Effect of unilateral cerebral cortical lesions on ocular motor behavior in monkeys: sac-cades and quick phases. J Neurophysiol 1986; 56: 1590–1625
  • Mohler C W, Goldberg M E, Wurtz R H. Visual receptive fields of frontal eye field neurons. Brain Res 1973; 61: 385–389
  • Kornhuber H H. Blickmotorik. Physiologie des Menschen 13, Sehen, Sin-nesphysiologie III., O H Gauer, K Kramer, R Jung. Urban und Schwarzenberg, Unich/Berlin/Vienna 1987
  • Zee D S. Ocular motor control: The cerebral control of eye movements. Neuro-Ophthalmology., S Lessell, J TW van Dalen. Elsevier, Amsterdam/New York/Oxford 1984; Vol III: 141–156

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