Direct Current Stimulation over the Primary Motor Cortex, Cerebellum, and Spinal Cord to Modulate Balance Performance: A Randomized Placebo-Controlled Trial
Veldema J, Steingräber T, von Grönheim L, Wienecke J, Regel R, Schack T, Schütz C (2024)
Bioengineering 11(4): 353.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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bioengineering-11-00353-v2.pdf
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Autor*in
Veldema, JitkaUniBi ;
Steingräber, TeniUniBi ;
von Grönheim, Leon;
Wienecke, Jana;
Regel, Rieke;
Schack, ThomasUniBi;
Schütz, ChristophUniBi
Einrichtung
Abstract / Bemerkung
Objectives: Existing applications of non-invasive brain stimulation in the modulation of balance ability are focused on the primary motor cortex (M1). It is conceivable that other brain and spinal cord areas may be comparable or more promising targets in this regard. This study compares transcranial direct current stimulation (tDCS) over (i) the M1, (ii) the cerebellum, and (iii) trans-spinal direct current stimulation (tsDCS) in the modulation of balance ability. Methods: Forty-two sports students were randomized in this placebo-controlled study. Twenty minutes of anodal 1.5 mA t/tsDCS over (i) the M1, (ii) the cerebellum, and (iii) the spinal cord, as well as (iv) sham tDCS were applied to each subject. The Y Balance Test, Single Leg Landing Test, and Single Leg Squat Test were performed prior to and after each intervention. Results: The Y Balance Test showed significant improvement after real stimulation of each region compared to sham stimulation. While tsDCS supported the balance ability of both legs, M1 and cerebellar tDCS supported right leg stand only. No significant differences were found in the Single Leg Landing Test and the Single Leg Squat Test. Conclusions: Our data encourage the application of DCS over the cerebellum and spinal cord (in addition to the M1 region) in supporting balance control. Future research should investigate and compare the effects of different stimulation protocols (anodal or cathodal direct current stimulation (DCS), alternating current stimulation (ACS), high-definition DCS/ACS, closed-loop ACS) over these regions in healthy people and examine the potential of these approaches in the neurorehabilitation.
Stichworte
tDCS;
tsDCS;
balance;
postural control;
primary motor cortex;
cerebellum;
spinal cord;
healthy people
Erscheinungsjahr
2024
Zeitschriftentitel
Bioengineering
Band
11
Ausgabe
4
Art.-Nr.
353
Urheberrecht / Lizenzen
eISSN
2306-5354
Finanzierungs-Informationen
Open-Access-Publikationskosten wurden durch die Universität Bielefeld gefördert.
Page URI
https://pub.uni-bielefeld.de/record/2988355
Zitieren
Veldema J, Steingräber T, von Grönheim L, et al. Direct Current Stimulation over the Primary Motor Cortex, Cerebellum, and Spinal Cord to Modulate Balance Performance: A Randomized Placebo-Controlled Trial. Bioengineering. 2024;11(4): 353.
Veldema, J., Steingräber, T., von Grönheim, L., Wienecke, J., Regel, R., Schack, T., & Schütz, C. (2024). Direct Current Stimulation over the Primary Motor Cortex, Cerebellum, and Spinal Cord to Modulate Balance Performance: A Randomized Placebo-Controlled Trial. Bioengineering, 11(4), 353. https://doi.org/10.3390/bioengineering11040353
Veldema, Jitka, Steingräber, Teni, von Grönheim, Leon, Wienecke, Jana, Regel, Rieke, Schack, Thomas, and Schütz, Christoph. 2024. “Direct Current Stimulation over the Primary Motor Cortex, Cerebellum, and Spinal Cord to Modulate Balance Performance: A Randomized Placebo-Controlled Trial”. Bioengineering 11 (4): 353.
Veldema, J., Steingräber, T., von Grönheim, L., Wienecke, J., Regel, R., Schack, T., and Schütz, C. (2024). Direct Current Stimulation over the Primary Motor Cortex, Cerebellum, and Spinal Cord to Modulate Balance Performance: A Randomized Placebo-Controlled Trial. Bioengineering 11:353.
Veldema, J., et al., 2024. Direct Current Stimulation over the Primary Motor Cortex, Cerebellum, and Spinal Cord to Modulate Balance Performance: A Randomized Placebo-Controlled Trial. Bioengineering, 11(4): 353.
J. Veldema, et al., “Direct Current Stimulation over the Primary Motor Cortex, Cerebellum, and Spinal Cord to Modulate Balance Performance: A Randomized Placebo-Controlled Trial”, Bioengineering, vol. 11, 2024, : 353.
Veldema, J., Steingräber, T., von Grönheim, L., Wienecke, J., Regel, R., Schack, T., Schütz, C.: Direct Current Stimulation over the Primary Motor Cortex, Cerebellum, and Spinal Cord to Modulate Balance Performance: A Randomized Placebo-Controlled Trial. Bioengineering. 11, : 353 (2024).
Veldema, Jitka, Steingräber, Teni, von Grönheim, Leon, Wienecke, Jana, Regel, Rieke, Schack, Thomas, and Schütz, Christoph. “Direct Current Stimulation over the Primary Motor Cortex, Cerebellum, and Spinal Cord to Modulate Balance Performance: A Randomized Placebo-Controlled Trial”. Bioengineering 11.4 (2024): 353.
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