Inhibitory influence of the ipsilateral motor cortex on responses to stimulation of the human cortex and pyramidal tract

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Inhibitory influence of the ipsilateral motor cortex on responses to stimulation of the human cortex and pyramidal tract

Christian Gerloff, Leonardo G. Cohen, Mary Kay Floeter, Robert Chen, Brian Corwell and Mark Hallett

Human Cortical Physiology Unit, Medical Neurology Branch, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD 20892-1428, USA

The ability of the primary motor cortex (M1) to modulate motor responses in ipsilateral hand muscles seems to be important for normal motor control and potentially also for recovery after brain lesions. It is not clear which pathways mediate this ipsilateral modulation. Transcallosal connections have been proposed, but are known to be sparse between cortical hand motor representations in primates. The present study was performed to determine whether descending ipsilateral modulation of motor responses might also be mediated below the cortical level in humans.
A paired-pulse protocol was used, in which motor-evoked potentials (MEPs) were produced by cortical transcranial magnetic stimulation (cTMS) or by electrical stimulation of the pyramidal tract at the level of the pyramidal decussation (pdTES), in both preactivated and relaxed hand muscles. Paired stimuli were applied at various interstimulus intervals (ISIs) between 2 and 100 ms. The conditioning stimulus (CS) was always magnetic, and delivered to the M1 ipsilateral to the target hand, prior to the test stimulus (TS). The magnetic TS was delivered to the M1 contralateral to the target hand; the electrical TS was applied through electrodes placed over the mastoid process bilaterally. Further experiments included cortical electrical stimulation and H-reflexes. The MEP amplitudes were averaged separately for each ISI and the control condition (no CS), and expressed as a percentage of the unconditioned response.
Conditioning stimulation of the ipsilateral M1 resulted in significant inhibition of magnetically evoked MEPs, and also of MEPs produced by pdTES. Inhibition occurred at ISIs between 6 and 50 ms, and was observed in preactivated and relaxed muscles. Higher CS intensities caused greater inhibition of both cTMS- and pdTES-evoked MEPs.
While the conditioning effects on magnetically evoked muscle responses could be explained by a transcallosal mechanism, the effects on pdTES-evoked MEPs cannot, because they are elicited subcortically and are therefore not susceptible to inhibitory mechanisms transmitted at the cortico-cortical level.
In conclusion, the present results provide novel evidence that the inhibitory influence of the human M1 on ipsilateral hand muscles is to a significant extent mediated below the cortical level, and not only through cortico-cortical transcallosal connections. They point to a concept of inhibitory interaction between the two primary motor cortices that is relayed at multiple levels along the neuroaxis, thus perhaps providing a structurally redundant system which may become important in case of lesions..

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				L. Avanzino, J. T. H. Teo, and J. C. Rothwell Intracortical circuits modulate transcallosal inhibition in humans J. Physiol., August 15, 2007; 583(1): 99 - 114. [Abstract] [Full Text] [PDF]

				M. B. Spraker, H. Yu, D. M. Corcos, and D. E. Vaillancourt Role of Individual Basal Ganglia Nuclei in Force Amplitude Generation J Neurophysiol, August 1, 2007; 98(2): 821 - 834. [Abstract] [Full Text] [PDF]

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				M. L. Harris-Love, M. A. Perez, R. Chen, and L. G. Cohen Interhemispheric Inhibition in Distal and Proximal Arm Representations in the Primary Motor Cortex J Neurophysiol, March 1, 2007; 97(3): 2511 - 2515. [Abstract] [Full Text] [PDF]

				J. Duque, N. Murase, P. Celnik, F. Hummel, M. Harris-Love, R. Mazzocchio, E. Olivier, and L. G. Cohen Intermanual Differences in Movement-related Interhemispheric Inhibition. J. Cogn. Neurosci., February 1, 2007; 19(2): 204 - 213. [Abstract] [Full Text] [PDF]

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				M. Kobayashi, S. Hutchinson, H. Theoret, G. Schlaug, and A. Pascual-Leone Repetitive TMS of the motor cortex improves ipsilateral sequential simple finger movements Neurology, January 13, 2004; 62(1): 91 - 98. [Abstract] [Full Text] [PDF]

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				K. Schmierer, K. Irlbacher, P. Grosse, S. Roricht, and B.-U. Meyer Correlates of disability in multiple sclerosis detected by transcranial magnetic stimulation Neurology, October 22, 2002; 59(8): 1218 - 1224. [Abstract] [Full Text] [PDF]

				A. Feydy, R. Carlier, A. Roby-Brami, B. Bussel, F. Cazalis, L. Pierot, Y. Burnod, and M.A. Maier Longitudinal Study of Motor Recovery After Stroke: Recruitment and Focusing of Brain Activation Stroke, June 1, 2002; 33(6): 1610 - 1617. [Abstract] [Full Text] [PDF]

				F. Hummel, F. Andres, E. Altenmuller, J. Dichgans, and C. Gerloff Inhibitory control of acquired motor programmes in the human brain Brain, February 1, 2002; 125(2): 404 - 420. [Abstract] [Full Text] [PDF]

				S. C. Gandevia Spinal and Supraspinal Factors in Human Muscle Fatigue Physiol Rev, October 1, 2001; 81(4): 1725 - 1789. [Abstract] [Full Text] [PDF]

				G. Alagona, V. Delvaux, P. Gerard, V. De Pasqua, G. Pennisi, P. J. Delwaide, F. Nicoletti, and A. Maertens de Noordhout Ipsilateral Motor Responses to Focal Transcranial Magnetic Stimulation in Healthy Subjects and Acute-Stroke Patients Stroke, June 1, 2001; 32(6): 1304 - 1309. [Abstract] [Full Text] [PDF]

				F. d. N. A. P. Shelton and M. J. Reding Effect of Lesion Location on Upper Limb Motor Recovery After Stroke Stroke, January 1, 2001; 32(1): 107 - 112. [Abstract] [Full Text] [PDF]

				M. Weber, A. Eisen, H. G. Stewart, and P. M. Andersen Preserved slow conducting corticomotoneuronal projections in amyotrophic lateral sclerosis with autosomal recessive D90A CuZn-superoxide dismutase mutation Brain, July 1, 2000; 123(7): 1505 - 1515. [Abstract] [Full Text] [PDF]

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