Increase in cortical excitability elicited by Anodal Transcranial Direct Current stimulation does not affect self-paced cycling performance

Mikkel Jacobi Thomsen, Jens Eg Nørgaard, Dennis Knudsen, Jon Slettum Aaes, Mathias Vedsø Kristiansen, Michael Voigt

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceabstrakt i proceedingForskning

OriginalsprogEngelsk
TitelProgram & Abstracts, 10th Annual Meeting of the Danish Society of Biomechanics, 5 October 2018, Brøndby, Denmark
ForlagDanish Society of Biomechanics
Publikationsdato5 okt. 2018
Sider31
StatusUdgivet - 5 okt. 2018
Begivenhed10th Annual Meeting of the Danish Society of Biomechanics - Brøndby, Danmark
Varighed: 5 okt. 20185 okt. 2018

Konference

Konference10th Annual Meeting of the Danish Society of Biomechanics
LandDanmark
ByBrøndby
Periode05/10/201805/10/2018

Citer dette

Thomsen, M. J., Nørgaard, J. E., Knudsen, D., Aaes, J. S., Kristiansen, M. V., & Voigt, M. (2018). Increase in cortical excitability elicited by Anodal Transcranial Direct Current stimulation does not affect self-paced cycling performance. I Program & Abstracts, 10th Annual Meeting of the Danish Society of Biomechanics, 5 October 2018, Brøndby, Denmark (s. 31). Danish Society of Biomechanics.
Thomsen, Mikkel Jacobi ; Nørgaard, Jens Eg ; Knudsen, Dennis ; Aaes, Jon Slettum ; Kristiansen, Mathias Vedsø ; Voigt, Michael. / Increase in cortical excitability elicited by Anodal Transcranial Direct Current stimulation does not affect self-paced cycling performance. Program & Abstracts, 10th Annual Meeting of the Danish Society of Biomechanics, 5 October 2018, Brøndby, Denmark. Danish Society of Biomechanics, 2018. s. 31
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Thomsen, MJ, Nørgaard, JE, Knudsen, D, Aaes, JS, Kristiansen, MV & Voigt, M 2018, Increase in cortical excitability elicited by Anodal Transcranial Direct Current stimulation does not affect self-paced cycling performance. i Program & Abstracts, 10th Annual Meeting of the Danish Society of Biomechanics, 5 October 2018, Brøndby, Denmark. Danish Society of Biomechanics, s. 31, 10th Annual Meeting of the Danish Society of Biomechanics, Brøndby, Danmark, 05/10/2018.

Increase in cortical excitability elicited by Anodal Transcranial Direct Current stimulation does not affect self-paced cycling performance. / Thomsen, Mikkel Jacobi; Nørgaard, Jens Eg; Knudsen, Dennis; Aaes, Jon Slettum; Kristiansen, Mathias Vedsø; Voigt, Michael.

Program & Abstracts, 10th Annual Meeting of the Danish Society of Biomechanics, 5 October 2018, Brøndby, Denmark. Danish Society of Biomechanics, 2018. s. 31.

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceabstrakt i proceedingForskning

TY - ABST

T1 - Increase in cortical excitability elicited by Anodal Transcranial Direct Current stimulation does not affect self-paced cycling performance

AU - Thomsen, Mikkel Jacobi

AU - Nørgaard, Jens Eg

AU - Knudsen, Dennis

AU - Aaes, Jon Slettum

AU - Kristiansen, Mathias Vedsø

AU - Voigt, Michael

PY - 2018/10/5

Y1 - 2018/10/5

M3 - Conference abstract in proceeding

SP - 31

BT - Program & Abstracts, 10th Annual Meeting of the Danish Society of Biomechanics, 5 October 2018, Brøndby, Denmark

PB - Danish Society of Biomechanics

ER -

Thomsen MJ, Nørgaard JE, Knudsen D, Aaes JS, Kristiansen MV, Voigt M. Increase in cortical excitability elicited by Anodal Transcranial Direct Current stimulation does not affect self-paced cycling performance. I Program & Abstracts, 10th Annual Meeting of the Danish Society of Biomechanics, 5 October 2018, Brøndby, Denmark. Danish Society of Biomechanics. 2018. s. 31