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University of Fribourg (Switzerland)

3 ARTICLES PUBLISHED IN JoVE

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Neuroscience

Non-invasive Assessment of Changes in Corticomotoneuronal Transmission in Humans
Wolfgang Taube 1, Christian Leukel 1,2, Jens Bo Nielsen 3,4, Jesper Lundbye-Jensen 3,4
1Department of Medicine, Movement and Sport Science, University of Fribourg (Switzerland), 2Department of Sport Science, University of Freiburg (Germany), 3Department of Neuroscience and Pharmacology, University of Copenhagen, 4Department of Nutrition, Exercise and Sports, University of Copenhagen

The aim of the present study was to assess changes in transmission at the corticomotoneuronal synapses in humans after repetitive transcranial magnetic stimulation. For this purpose, an electrophysiological method is introduced that allows assessment of pathway specific corticospinal transmission, i.e. differentiation of fast, direct corticospinal pathways from polysynaptic connections.

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Behavior

Force and Position Control in Humans - The Role of Augmented Feedback
Benedikt Lauber 1,2, Martin Keller 2, Christian Leukel 1,3, Albert Gollhofer 1, Wolfgang Taube 2
1Department of Sport Science, University of Freiburg, 2Department of Medicine, Movement and Sport Science, University of Fribourg, 3Bernsteincenter Freiburg

Controlling an identical movement with position or force feedback results in different neural activation and motor behavior. This protocol describes how to investigate behavioral changes by looking at neuromuscular fatigue and how to evaluate motor cortical (inhibitory) activity using subthreshold TMS with respect to the interpretation of augmented feedback.

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Behavior

Intracortical Inhibition Within the Primary Motor Cortex Can Be Modulated by Changing the Focus of Attention
Yves-Alain Kuhn 1, Martin Keller 1, Jan Ruffieux 1, Wolfgang Taube 1
1Department of Medicine, Movement and Sport Sciences, University of Fribourg

Using two different transcranial magnetic stimulation (TMS) protocols, this manuscript describes how to measure and compare cortical inhibition within the primary motor cortex when adopting different attentional foci.

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