Effect of Pulse Duration and Direction on Plasticity Induced by 5 Hz Repetitive Transcranial Magnetic Stimulation in Correlation With Neuronal Depolarization
Introduction: High frequency repetitive transcranial magnetic stimulation applied to the motor cortex causes an increase in the amplitude of motor evoked potentials (MEPs) that persists after stimulation. Here, we focus on the aftereffects generated by high frequency controllable pulse TMS (cTMS) wi...
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Frontiers Media S.A.
2021
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oai:doaj.org-article:ac2630e25ec94a7eb4f2cc6b2b971bf02021-12-01T07:03:15ZEffect of Pulse Duration and Direction on Plasticity Induced by 5 Hz Repetitive Transcranial Magnetic Stimulation in Correlation With Neuronal Depolarization1662-453X10.3389/fnins.2021.773792https://doaj.org/article/ac2630e25ec94a7eb4f2cc6b2b971bf02021-11-01T00:00:00Zhttps://www.frontiersin.org/articles/10.3389/fnins.2021.773792/fullhttps://doaj.org/toc/1662-453XIntroduction: High frequency repetitive transcranial magnetic stimulation applied to the motor cortex causes an increase in the amplitude of motor evoked potentials (MEPs) that persists after stimulation. Here, we focus on the aftereffects generated by high frequency controllable pulse TMS (cTMS) with different directions, intensities, and pulse durations.Objectives: To investigate the influence of pulse duration, direction, and amplitude in correlation to induced depolarization on the excitatory plastic aftereffects of 5 Hz repetitive transcranial magnetic stimulation (rTMS) using bidirectional cTMS pulses.Methods: We stimulated the hand motor cortex with 5 Hz rTMS applying 1,200 bidirectional pulses with the main component durations of 80, 100, and 120 μs using a controllable pulse stimulator TMS (cTMS). Fourteen healthy subjects were investigated in nine sessions with 80% resting motor threshold (RMT) for posterior-anterior (PA) and 80 and 90% RMT anterior-posterior (AP) induced current direction. We used a model approximating neuronal membranes as a linear first order low-pass filter to estimate the strength–duration time constant and to simulate the membrane polarization produced by each waveform.Results: PA and AP 5 Hz rTMS at 80% RMT produced no significant excitation. An exploratory analysis indicated that 90% RMT AP stimulation with 100 and 120 μs pulses but not 80 μs pulses led to significant excitation. We found a positive correlation between the plastic outcome of each session and the simulated peak neural membrane depolarization for time constants >100 μs. This correlation was strongest for neural elements that are depolarized by the main phase of the AP pulse, suggesting the effects were dependent on pulse direction.Conclusions: Among the tested conditions, only 5 Hz rTMS with higher intensity and wider pulses appeared to produce excitatory aftereffects. This correlated with the greater depolarization of neural elements with time constants slower than the directly activated neural elements responsible for producing the motor output (e.g., somatic or dendritic membrane).Significance: Higher intensities and wider pulses seem to be more efficient in inducing excitation. If confirmed, this observation could lead to better results in future clinical studies performed with wider pulses.Islam HalawaIslam HalawaKatharina ReichertAman S. AberraMartin SommerMartin SommerMartin SommerAngel V. PeterchevAngel V. PeterchevAngel V. PeterchevAngel V. PeterchevWalter PaulusWalter PaulusFrontiers Media S.A.articlerTMS (repetitive transcranial magnetic stimulation)pulse duration and energydirection of stimulationrTMS intensityMEPsNeurosciences. Biological psychiatry. NeuropsychiatryRC321-571ENFrontiers in Neuroscience, Vol 15 (2021) |
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rTMS (repetitive transcranial magnetic stimulation) pulse duration and energy direction of stimulation rTMS intensity MEPs Neurosciences. Biological psychiatry. Neuropsychiatry RC321-571 |
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rTMS (repetitive transcranial magnetic stimulation) pulse duration and energy direction of stimulation rTMS intensity MEPs Neurosciences. Biological psychiatry. Neuropsychiatry RC321-571 Islam Halawa Islam Halawa Katharina Reichert Aman S. Aberra Martin Sommer Martin Sommer Martin Sommer Angel V. Peterchev Angel V. Peterchev Angel V. Peterchev Angel V. Peterchev Walter Paulus Walter Paulus Effect of Pulse Duration and Direction on Plasticity Induced by 5 Hz Repetitive Transcranial Magnetic Stimulation in Correlation With Neuronal Depolarization |
| description |
Introduction: High frequency repetitive transcranial magnetic stimulation applied to the motor cortex causes an increase in the amplitude of motor evoked potentials (MEPs) that persists after stimulation. Here, we focus on the aftereffects generated by high frequency controllable pulse TMS (cTMS) with different directions, intensities, and pulse durations.Objectives: To investigate the influence of pulse duration, direction, and amplitude in correlation to induced depolarization on the excitatory plastic aftereffects of 5 Hz repetitive transcranial magnetic stimulation (rTMS) using bidirectional cTMS pulses.Methods: We stimulated the hand motor cortex with 5 Hz rTMS applying 1,200 bidirectional pulses with the main component durations of 80, 100, and 120 μs using a controllable pulse stimulator TMS (cTMS). Fourteen healthy subjects were investigated in nine sessions with 80% resting motor threshold (RMT) for posterior-anterior (PA) and 80 and 90% RMT anterior-posterior (AP) induced current direction. We used a model approximating neuronal membranes as a linear first order low-pass filter to estimate the strength–duration time constant and to simulate the membrane polarization produced by each waveform.Results: PA and AP 5 Hz rTMS at 80% RMT produced no significant excitation. An exploratory analysis indicated that 90% RMT AP stimulation with 100 and 120 μs pulses but not 80 μs pulses led to significant excitation. We found a positive correlation between the plastic outcome of each session and the simulated peak neural membrane depolarization for time constants >100 μs. This correlation was strongest for neural elements that are depolarized by the main phase of the AP pulse, suggesting the effects were dependent on pulse direction.Conclusions: Among the tested conditions, only 5 Hz rTMS with higher intensity and wider pulses appeared to produce excitatory aftereffects. This correlated with the greater depolarization of neural elements with time constants slower than the directly activated neural elements responsible for producing the motor output (e.g., somatic or dendritic membrane).Significance: Higher intensities and wider pulses seem to be more efficient in inducing excitation. If confirmed, this observation could lead to better results in future clinical studies performed with wider pulses. |
| format |
article |
| author |
Islam Halawa Islam Halawa Katharina Reichert Aman S. Aberra Martin Sommer Martin Sommer Martin Sommer Angel V. Peterchev Angel V. Peterchev Angel V. Peterchev Angel V. Peterchev Walter Paulus Walter Paulus |
| author_facet |
Islam Halawa Islam Halawa Katharina Reichert Aman S. Aberra Martin Sommer Martin Sommer Martin Sommer Angel V. Peterchev Angel V. Peterchev Angel V. Peterchev Angel V. Peterchev Walter Paulus Walter Paulus |
| author_sort |
Islam Halawa |
| title |
Effect of Pulse Duration and Direction on Plasticity Induced by 5 Hz Repetitive Transcranial Magnetic Stimulation in Correlation With Neuronal Depolarization |
| title_short |
Effect of Pulse Duration and Direction on Plasticity Induced by 5 Hz Repetitive Transcranial Magnetic Stimulation in Correlation With Neuronal Depolarization |
| title_full |
Effect of Pulse Duration and Direction on Plasticity Induced by 5 Hz Repetitive Transcranial Magnetic Stimulation in Correlation With Neuronal Depolarization |
| title_fullStr |
Effect of Pulse Duration and Direction on Plasticity Induced by 5 Hz Repetitive Transcranial Magnetic Stimulation in Correlation With Neuronal Depolarization |
| title_full_unstemmed |
Effect of Pulse Duration and Direction on Plasticity Induced by 5 Hz Repetitive Transcranial Magnetic Stimulation in Correlation With Neuronal Depolarization |
| title_sort |
effect of pulse duration and direction on plasticity induced by 5 hz repetitive transcranial magnetic stimulation in correlation with neuronal depolarization |
| publisher |
Frontiers Media S.A. |
| publishDate |
2021 |
| url |
https://doaj.org/article/ac2630e25ec94a7eb4f2cc6b2b971bf0 |
| work_keys_str_mv |
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