Hemispheric Differences of 1 Hz rTMS over Motor and Premotor Cortex in Modulation of Neural Processing and Hand Function
Veldema J, Nowak DA, Bösl K, Gharabaghi A (2023)
Brain Sciences 13(5): 752.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Veldema, JitkaUniBi ;
Nowak, Dennis Alexander;
Bösl, Kathrin;
Gharabaghi, Alireza
Abstract / Bemerkung
Introduction: Non-invasive brain stimulation can modulate both neural processing and behavioral performance. Its effects may be influenced by the stimulated area and hemisphere. In this study (EC no. 09083), repetitive transcranial magnetic stimulation (rTMS) was applied to the primary motor cortex (M1) or dorsal premotor cortex (dPMC) of either the right or left hemisphere, while evaluating cortical neurophysiology and hand function. Methods: Fifteen healthy subjects participated in this placebo-controlled crossover study. Four sessions of real 1 Hz rTMS (110% of rMT, 900 pulses) over (i) left M1, (ii) right M1, (iii) left dPMC, (iv) right dPMC, and one session of (v) placebo 1 Hz rTMS (0% of rMT, 900 pulses) over the left M1 were applied in randomized order. Motor function of both hands (Jebsen–Taylor Hand Function Test (JTHFT)) and neural processing within both hemispheres (motor evoked potentials (MEPs), cortical silent period (CSP), and ipsilateral silent period (ISP)) were evaluated prior and after each intervention session. Results: A lengthening of CSP and ISP durations within the right hemisphere was induced by 1 Hz rTMS over both areas and hemispheres. No such intervention-induced neurophysiological changes were detected within the left hemisphere. Regarding JTHFT and MEP, no intervention-induced changes ensued. Changes of hand function correlated with neurophysiological changes within both hemispheres, more often for the left than the right hand. Conclusions: Effects of 1 Hz rTMS can be better captured by neurophysiological than behavioral measures. Hemispheric differences need to be considered for this intervention.
Stichworte
rTMS;
hand function;
primary motor cortex;
dorsal premotor cortex;
laterality differences
Erscheinungsjahr
2023
Zeitschriftentitel
Brain Sciences
Band
13
Ausgabe
5
Art.-Nr.
752
Urheberrecht / Lizenzen
eISSN
2076-3425
Finanzierungs-Informationen
Open-Access-Publikationskosten wurden durch die Universität Bielefeld gefördert.
Page URI
https://pub.uni-bielefeld.de/record/2978944
Zitieren
Veldema J, Nowak DA, Bösl K, Gharabaghi A. Hemispheric Differences of 1 Hz rTMS over Motor and Premotor Cortex in Modulation of Neural Processing and Hand Function. Brain Sciences. 2023;13(5): 752.
Veldema, J., Nowak, D. A., Bösl, K., & Gharabaghi, A. (2023). Hemispheric Differences of 1 Hz rTMS over Motor and Premotor Cortex in Modulation of Neural Processing and Hand Function. Brain Sciences, 13(5), 752. https://doi.org/10.3390/brainsci13050752
Veldema, Jitka, Nowak, Dennis Alexander, Bösl, Kathrin, and Gharabaghi, Alireza. 2023. “Hemispheric Differences of 1 Hz rTMS over Motor and Premotor Cortex in Modulation of Neural Processing and Hand Function”. Brain Sciences 13 (5): 752.
Veldema, J., Nowak, D. A., Bösl, K., and Gharabaghi, A. (2023). Hemispheric Differences of 1 Hz rTMS over Motor and Premotor Cortex in Modulation of Neural Processing and Hand Function. Brain Sciences 13:752.
Veldema, J., et al., 2023. Hemispheric Differences of 1 Hz rTMS over Motor and Premotor Cortex in Modulation of Neural Processing and Hand Function. Brain Sciences, 13(5): 752.
J. Veldema, et al., “Hemispheric Differences of 1 Hz rTMS over Motor and Premotor Cortex in Modulation of Neural Processing and Hand Function”, Brain Sciences, vol. 13, 2023, : 752.
Veldema, J., Nowak, D.A., Bösl, K., Gharabaghi, A.: Hemispheric Differences of 1 Hz rTMS over Motor and Premotor Cortex in Modulation of Neural Processing and Hand Function. Brain Sciences. 13, : 752 (2023).
Veldema, Jitka, Nowak, Dennis Alexander, Bösl, Kathrin, and Gharabaghi, Alireza. “Hemispheric Differences of 1 Hz rTMS over Motor and Premotor Cortex in Modulation of Neural Processing and Hand Function”. Brain Sciences 13.5 (2023): 752.
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