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Dependence of cortical neuronal strength-duration properties on TMS pulse shape.

Publication ,  Journal Article
Menon, P; Pavey, N; Aberra, AS; van den Bos, MAJ; Wang, R; Kiernan, MC; Peterchev, AV; Vucic, S
Published in: Clin Neurophysiol
June 2023

OBJECTIVE: The aim of present study was to explore the effects of different combinations of transcranial magnetic stimulation (TMS) pulse width and pulse shape on cortical strength-duration time constant (SDTC) and rheobase measurements. METHODS: Resting motor thresholds (RMT) at pulse widths (PW) of 30, 45, 60, 90 and 120 µs and M-ratios of 0.2, 0.1 and 0.025 were determined using figure-of-eight coil with initial posterior-to-anterior induced current. The M-ratio indicates the relative phases of the induced current with lower values signifying a more unidirectional stimulus. Strength-duration time constant (SDTC) and rheobase were estimated for each M-ratio and various PW combinations. Simulations of biophysically realistic cortical neuron models assessed underlying neuronal populations and physiological mechanisms mediating pulse shape effects on strength-duration properties. RESULTS: The M-ratio exerted significant effect on SDTC (F(2,44) = 4.386, P = 0.021), which was longer for M-ratio of 0.2 (243.4 ± 61.2 µs) compared to 0.025 (186.7 ± 52.5 µs, P = 0.034). Rheobase was significantly smaller when assessed with M-ratio 0.2 compared to 0.025 (P = 0.026). SDTC and rheobase values were most consistent with pulse width sets of 30/45/60/90/120 µs, 30/60/90/120 µs, and 30/60/120 µs. Simulation studies indicated that isolated pyramidal neurons in layers 2/3, 5, and large basket-cells in layer 4 exhibited SDTCs comparable to experimental results. Further, simulation studies indicated that reducing transient Na+ channel conductance increased SDTC with larger increases for higher M-ratios. CONCLUSIONS: Cortical strength-duration curve properties vary with pulse shape, and the modulating effect of the hyperpolarising pulse phase on cortical axonal transient Na+ conductances could account for these changes, although a shift in the recruited neuronal populations may contribute as well. SIGNIFICANCE: The dependence of the cortical strength-duration curve properties on the TMS pulse shape and pulse width selection underscores the need for consistent measurement methods across studies and the potential to extract information about pathophysiological processes.

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Published In

Clin Neurophysiol

DOI

EISSN

1872-8952

Publication Date

June 2023

Volume

150

Start / End Page

106 / 118

Location

Netherlands

Related Subject Headings

  • Transcranial Magnetic Stimulation
  • Neurons
  • Neurology & Neurosurgery
  • Humans
  • Heart Rate
  • Evoked Potentials, Motor
  • Axons
  • 3209 Neurosciences
  • 17 Psychology and Cognitive Sciences
  • 11 Medical and Health Sciences
 

Citation

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Menon, P., Pavey, N., Aberra, A. S., van den Bos, M. A. J., Wang, R., Kiernan, M. C., … Vucic, S. (2023). Dependence of cortical neuronal strength-duration properties on TMS pulse shape. Clin Neurophysiol, 150, 106–118. https://doi.org/10.1016/j.clinph.2023.03.012
Menon, Parvathi, Nathan Pavey, Aman S. Aberra, Mehdi A. J. van den Bos, Ruochen Wang, Matthew C. Kiernan, Angel V. Peterchev, and Steve Vucic. “Dependence of cortical neuronal strength-duration properties on TMS pulse shape.Clin Neurophysiol 150 (June 2023): 106–18. https://doi.org/10.1016/j.clinph.2023.03.012.
Menon P, Pavey N, Aberra AS, van den Bos MAJ, Wang R, Kiernan MC, et al. Dependence of cortical neuronal strength-duration properties on TMS pulse shape. Clin Neurophysiol. 2023 Jun;150:106–18.
Menon, Parvathi, et al. “Dependence of cortical neuronal strength-duration properties on TMS pulse shape.Clin Neurophysiol, vol. 150, June 2023, pp. 106–18. Pubmed, doi:10.1016/j.clinph.2023.03.012.
Menon P, Pavey N, Aberra AS, van den Bos MAJ, Wang R, Kiernan MC, Peterchev AV, Vucic S. Dependence of cortical neuronal strength-duration properties on TMS pulse shape. Clin Neurophysiol. 2023 Jun;150:106–118.
Journal cover image

Published In

Clin Neurophysiol

DOI

EISSN

1872-8952

Publication Date

June 2023

Volume

150

Start / End Page

106 / 118

Location

Netherlands

Related Subject Headings

  • Transcranial Magnetic Stimulation
  • Neurons
  • Neurology & Neurosurgery
  • Humans
  • Heart Rate
  • Evoked Potentials, Motor
  • Axons
  • 3209 Neurosciences
  • 17 Psychology and Cognitive Sciences
  • 11 Medical and Health Sciences