Journal ArticleDOI
Task-dependent changes of intracortical inhibition
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It is concluded that plastic changes of ICI and ICF within the hand representation vary according to the selective requirements of the motor program.Abstract:
The motor-evoked potential (MEP) to transcranial magnetic stimulation (TMS) is inhibited when preceded by a subthreshold TMS stimulus at short intervals (1–6 ms; intracortical inhibition, ICI) and is facilitated when preceded by a subthreshold TMS at longer intervals (10–15 ms; intracortical facilitation, ICF). We studied changes in ICI and ICF associated with two motor tasks requiring a different selectivity in fine motor control of small hand muscles (abductor pollicis brevis muscle, APB, and fourth dorsal interosseous muscle, 4DIO). In experiment 1 (exp. 1), nine healthy subjects completed four sets (5 min duration each) of repetitive (1 Hz) thumb movements. In experiment 2 (exp. 2), the subjects produced the same number of thumb movements, but complete relaxation of 4DIO was demanded. Following free thumb movements (exp. 1), amplitudes of MEPs in response to both single and paired TMS showed a trend to increase with the number of exercise sets in both APB and 4DIO. By contrast, more focal, selective thumb movementsinvolving APB with relaxation of 4DIO (exp. 2) caused an increase in MEP amplitudes after single and paired pulses only in APB, while a marked decrease in MEPs after paired pulses, but not after single TMS, in the actively relaxed 4DIO. This effect was more prominent for the interstimulus interval (ISI) of 1–3 ms than for longer ISIs (8 ms, 10 ms, and 15 ms). F-wave amplitudes reflecting excitability of the alpha motoneuron pool were unaltered in APB and 4DIO, suggesting a supraspinal origin for the observed changes. We conclude that plastic changes of ICI and ICF within the hand representation vary according to the selective requirements of the motor program. Performance of more focal tasks may be associated with a decrease in ICI in muscles engaged in the training task, while at the same time ICI may be increased in an actively relaxed muscle, also required for a focal performance. Additionally, our data further supports the idea that ICI and ICF may be controlled independently.read more
Citations
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Journal ArticleDOI
Motor Control and Aging: Links to Age-Related Brain Structural, Functional, and Biochemical Effects
Rachael D. Seidler,Jessica A. Bernard,Taritonye B. Burutolu,Brett W. Fling,Mark T. Gordon,Joseph T. Gwin,Youngbin Kwak,David B. Lipps +7 more
TL;DR: In general, older adults exhibit involvement of more widespread brain regions for motor control than young adults, particularly the prefrontal cortex and basal ganglia networks, resulting in an imbalance of "supply and demand".
Journal ArticleDOI
Mechanisms of enhancement of human motor cortex excitability induced by interventional paired associative stimulation.
TL;DR: Findings support the view that LTP‐like mechanisms may underlie the cortical plasticity induced by IPAS, as motor evoked potentials induced by unconditioned, single TMS pulses increased after IPAS.
Journal ArticleDOI
Contribution of transcranial magnetic stimulation to the understanding of cortical mechanisms involved in motor control
Janine Reis,Orlando B.C. Swayne,Yves Vandermeeren,M. Camus,Michael A. Dimyan,Michelle L. Harris-Love,Monica A. Perez,Patrick Ragert,John C. Rothwell,Leonardo G. Cohen +9 more
TL;DR: An up‐to‐date review of the available electrophysiological data and the impact on the understanding of human motor behaviour is presented and some of the gaps in the present knowledge as well as future directions of research are discussed in a format accessible to new students and/or investigators.
Journal ArticleDOI
Motor cortical disinhibition in the unaffected hemisphere after unilateral cortical stroke
Toshio Shimizu,Akiko Hosaki,Taro Hino,Masaru Sato,Tetsuo Komori,Shunsaku Hirai,Paolo Maria Rossini +6 more
TL;DR: The normalization of ICI in the patients with longer disease duration and the normal ICI after TMS in the subcortical group patients do not support the functional significance of motor cortex hyperexcitability in the unaffected hemisphere, at least in a patient population with poor motor recovery.
Journal ArticleDOI
Intracortical inhibition and facilitation in different representations of the human motor cortex.
Robert Chen,Alda Tam,Cathrin M. Bütefisch,Brian Corwell,Ulf Ziemann,John C. Rothwell,Leonardo G. Cohen +6 more
TL;DR: The findings suggest that the intracortical mechanisms for inhibition and facilitation in different motor representations are not related to the strength of corticospinal projections.
References
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Journal ArticleDOI
Corticocortical inhibition in human motor cortex.
T Kujirai,Maria D. Caramia,John C. Rothwell,Brian L. Day,Pd Thompson,A Ferbert,S Wroe,P. Asselman,C. D. Marsden +8 more
TL;DR: In ten normal volunteers, a transcranial magnetic or electric stimulus that was subthreshold for evoking an EMG response in relaxed muscles was used to condition responses evoked by a later, suprathreshold magnetic orElectric test shock to suggest that the suppression was produced by an action on cortical, rather than spinal excitability.
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Effects of antiepileptic drugs on motor cortex excitability in humans: A transcranial magnetic stimulation study
TL;DR: It is concluded that the changes in intracortical excitability are caused by GABA‐controlled interneuronal circuits in the motor cortex while changes in motor threshold are dependent on ion channel conductivity and may reflect membrane excitability.
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Reshaping the cortical motor map by unmasking latent intracortical connections
TL;DR: During pharmacological blockade of cortical inhibition in one part of the MI representation, movements of neighboring representations were evoked by stimulation in adjacent MI areas, suggesting that intracortical connections form a substrate for reorganization of cortical maps and that inhibitory circuits are critically placed to maintain or readjust the form of cortical motor representations.
Journal ArticleDOI
The effect of lorazepam on the motor cortical excitability in man
TL;DR: The effect of the short-acting benzodiazepine lorazepam on motor cortex excitability was investigated in 11 healthy volunteers using the technique of focal transcranial magnetic stimulation to assess various aspects of motor system excitability and the relevance of the present data in clinical epileptology is discussed.
Journal ArticleDOI
Changes in the balance between motor cortical excitation and inhibition in focal, task specific dystonia.
TL;DR: It is concluded that in focal task specific dystonia there is shift in the balance between excitation and inhibition in local circuits of the motor cortex which leads to a net decrease in the amount of short latency suppression.