Erschienen in:
01.12.2004 | Research Article
Different effects of fatiguing exercise on corticospinal and transcallosal excitability in human hand area motor cortex
verfasst von:
S. A. Edgley, A. P. Winter
Erschienen in:
Experimental Brain Research
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Ausgabe 4/2004
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Abstract
Following forceful exercise that leads to muscle fatigue, the size of muscle evoked responses (MEPs) generated by transcranial magnetic stimulation (TMS) in the exercised muscle is depressed over a prolonged period. Strong evidence implicates intracortical mechanisms in this depression. As well as evoking MEPs in contralateral muscles, TMS also reduces MEPs evoked in ipsilateral muscles through interhemispheric inhibition mediated by a transcallosal pathway. Here we have sought to determine whether this effect is also depressed after exercise. Using two magnetic stimulators, the aftereffects of unilateral hand muscle exercise on the ability of TMS delivered to the hemisphere that generated the exercise were examined to i) generate MEPs in the exercised hand muscles, and ii) depress MEPs evoked by TMS pulses in contralateral (non-exercised) hand muscles. After exercise there was a significant reduction in the amplitudes of MEPs evoked by TMS in the exercised muscles (p<0.001). However, the same stimuli remained able to depress responses evoked by TMS to the contralateral hemisphere in the non-exercised muscles as effectively as before the exercise. We conclude that unlike the MEPs evoked by corticospinal output, interhemispheric inhibition evoked from the hemisphere that generated the exercise is not depressed after exercise. A similar differential effect on interhemispheric inhibition and corticospinal output has been reported recently for the effects of transcranial direct current (DC) stimulation of the motor cortex. Fatiguing exercise and transcranial DC stimulation may therefore engage similar intracortical mechanisms.