Suppression of EMG activity by transcranial magnetic stimulation in human subjects during walking

Nicolas Caesar Petersen; Jane E Butler; Veronique Marchand-Pauvert; Rebecca Fisher; Annick Ledebt; Henrik S Pyndt; Naja L Hansen; Jens Bo Nielsen

Suppression of EMG activity by transcranial magnetic stimulation in human subjects during walking

Nicolas Caesar Petersen, Jane E Butler, Veronique Marchand-Pauvert, Rebecca Fisher, Annick Ledebt, Henrik S Pyndt, Naja L Hansen, Jens Bo Nielsen

179 Citations (Scopus)

Abstract

1. The involvement of the motor cortex during human walking was evaluated using transcranial magnetic stimulation (TMS) of the motor cortex at a variety of intensities. Recordings of EMG activity in tibialis anterior (TA) and soleus muscles during walking were rectified and averaged. 2. TMS of low intensity (below threshold for a motor-evoked potential, MEP) produced a suppression of ongoing EMG activity during walking. The average latency for this suppression was 40.0 +/- 1.0 ms. At slightly higher intensities of stimulation there was a facilitation of the EMG activity with an average latency of 29.5 +/- 1.0 ms. As the intensity of the stimulation was increased the facilitation increased in size and eventually a MEP was clear in individual sweeps. 3. In three subjects TMS was replaced by electrical stimulation over the motor cortex. Just below MEP threshold there was a clear facilitation at short latency (approximately 28 ms). As the intensity of the electrical stimulation was reduced the size of the facilitation decreased until it eventually disappeared. We did not observe a suppression of the EMG activity similar to that produced by TMS in any of the subjects. 4. The present study demonstrates that motoneuronal activity during walking can be suppressed by activation of intracortical inhibitory circuits. This illustrates for the first time that activity in the motor cortex is directly involved in the control of the muscles during human walking.

Original language	English
Journal	Journal of Physiology
Volume	537
Issue number	2
Pages (from-to)	651-656
Number of pages	6
ISSN	0022-3751
Publication status	Published - 2001

Cite this

@article{f9aac3f0070211ddbee902004c4f4f50,

title = "Suppression of EMG activity by transcranial magnetic stimulation in human subjects during walking",

abstract = "1. The involvement of the motor cortex during human walking was evaluated using transcranial magnetic stimulation (TMS) of the motor cortex at a variety of intensities. Recordings of EMG activity in tibialis anterior (TA) and soleus muscles during walking were rectified and averaged. 2. TMS of low intensity (below threshold for a motor-evoked potential, MEP) produced a suppression of ongoing EMG activity during walking. The average latency for this suppression was 40.0 +/- 1.0 ms. At slightly higher intensities of stimulation there was a facilitation of the EMG activity with an average latency of 29.5 +/- 1.0 ms. As the intensity of the stimulation was increased the facilitation increased in size and eventually a MEP was clear in individual sweeps. 3. In three subjects TMS was replaced by electrical stimulation over the motor cortex. Just below MEP threshold there was a clear facilitation at short latency (approximately 28 ms). As the intensity of the electrical stimulation was reduced the size of the facilitation decreased until it eventually disappeared. We did not observe a suppression of the EMG activity similar to that produced by TMS in any of the subjects. 4. The present study demonstrates that motoneuronal activity during walking can be suppressed by activation of intracortical inhibitory circuits. This illustrates for the first time that activity in the motor cortex is directly involved in the control of the muscles during human walking.",

author = "Petersen, {Nicolas Caesar} and Butler, {Jane E} and Veronique Marchand-Pauvert and Rebecca Fisher and Annick Ledebt and Pyndt, {Henrik S} and Hansen, {Naja L} and Nielsen, {Jens Bo}",

note = "CURIS 2007 5200 219",

year = "2001",

language = "English",

volume = "537",

pages = "651--656",

journal = "The Journal of Physiology",

issn = "0022-3751",

publisher = "Wiley-Blackwell",

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TY - JOUR

T1 - Suppression of EMG activity by transcranial magnetic stimulation in human subjects during walking

AU - Petersen, Nicolas Caesar

AU - Butler, Jane E

AU - Marchand-Pauvert, Veronique

AU - Fisher, Rebecca

AU - Ledebt, Annick

AU - Pyndt, Henrik S

AU - Hansen, Naja L

AU - Nielsen, Jens Bo

N1 - CURIS 2007 5200 219

PY - 2001

Y1 - 2001

N2 - 1. The involvement of the motor cortex during human walking was evaluated using transcranial magnetic stimulation (TMS) of the motor cortex at a variety of intensities. Recordings of EMG activity in tibialis anterior (TA) and soleus muscles during walking were rectified and averaged. 2. TMS of low intensity (below threshold for a motor-evoked potential, MEP) produced a suppression of ongoing EMG activity during walking. The average latency for this suppression was 40.0 +/- 1.0 ms. At slightly higher intensities of stimulation there was a facilitation of the EMG activity with an average latency of 29.5 +/- 1.0 ms. As the intensity of the stimulation was increased the facilitation increased in size and eventually a MEP was clear in individual sweeps. 3. In three subjects TMS was replaced by electrical stimulation over the motor cortex. Just below MEP threshold there was a clear facilitation at short latency (approximately 28 ms). As the intensity of the electrical stimulation was reduced the size of the facilitation decreased until it eventually disappeared. We did not observe a suppression of the EMG activity similar to that produced by TMS in any of the subjects. 4. The present study demonstrates that motoneuronal activity during walking can be suppressed by activation of intracortical inhibitory circuits. This illustrates for the first time that activity in the motor cortex is directly involved in the control of the muscles during human walking.

AB - 1. The involvement of the motor cortex during human walking was evaluated using transcranial magnetic stimulation (TMS) of the motor cortex at a variety of intensities. Recordings of EMG activity in tibialis anterior (TA) and soleus muscles during walking were rectified and averaged. 2. TMS of low intensity (below threshold for a motor-evoked potential, MEP) produced a suppression of ongoing EMG activity during walking. The average latency for this suppression was 40.0 +/- 1.0 ms. At slightly higher intensities of stimulation there was a facilitation of the EMG activity with an average latency of 29.5 +/- 1.0 ms. As the intensity of the stimulation was increased the facilitation increased in size and eventually a MEP was clear in individual sweeps. 3. In three subjects TMS was replaced by electrical stimulation over the motor cortex. Just below MEP threshold there was a clear facilitation at short latency (approximately 28 ms). As the intensity of the electrical stimulation was reduced the size of the facilitation decreased until it eventually disappeared. We did not observe a suppression of the EMG activity similar to that produced by TMS in any of the subjects. 4. The present study demonstrates that motoneuronal activity during walking can be suppressed by activation of intracortical inhibitory circuits. This illustrates for the first time that activity in the motor cortex is directly involved in the control of the muscles during human walking.

M3 - Journal article

C2 - 11731595

SN - 0022-3751

VL - 537

SP - 651

EP - 656

JO - The Journal of Physiology

JF - The Journal of Physiology

IS - 2

ER -