1. The effect of tDCS on improving physical performance and attenuating effort perception during maximal dynamic exercise in non-athletes.
- Author
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Isis, Suruagy, Armele, Dornelas, Paulo, Gomes Luis, Raylene, Araújo, Luam, Diniz, Marina, Berenguer-Rocha, Adriana, Baltar, and Katia, Monte-Silva
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PHYSICAL mobility , *TRANSCRANIAL direct current stimulation , *RATE of perceived exertion , *TEMPORAL lobe , *MOTOR cortex , *MALE athletes - Abstract
• Effects of tDCS (transcranial direct current stimulation) tested on non-athletes submitted to maximal dynamic exercise. • Double-blind, crossover, sham-controlled study using electrode positioning. • No significant improvement of performance seen in non-athletes in a maximal dynamic exercise. This study aimed to test the effects of transcranial direct current stimulation (tDCS), using different electrode positioning and montages, on physical performance in maximum incremental tests of healthy non-athlete subjects. A double-blinded, crossover, sham-controlled study. Fifteen subjects (aged 25.8 ± 5 years, nine women) received one of five different tDCS protocols: (i) anodal tDCS on the primary motor cortex (M1) (a-tDCS/M1), (ii) anodal tDCS on the left temporal cortex (T3) (a-tDCS/T3), (iii) cathodal tDCS on M1 (c-tDCS/M1), (iv) cathodal on T3 (c-tDCS/T3), or (v) sham tDCS. The protocols were assigned in a random order in separate sessions. After tDCS, the volunteers performed the maximal incremental exercise test (MIT) on a cycle ergometer in each session. The following measures were used to evaluate physical performance (primary outcome) during MIT: time to exhaustion (TE), maximum power (MAX-P), and Borg Rating of Perceived Exertion (RPE) scale. In addition, as a secondary outcome measure, we assessed the lower-limb corticospinal excitability and electrical muscular activity. tDCS applied over T3 or M1 did not influence electrical muscular activity or increase physical performance during MIT in healthy non-athlete subjects. However, our data confirmed that a-tDCS on the M1 increases lower-limb cortical excitability. Our results suggest that tDCS is not effective in improving performance during maximal dynamic exercise in non-athletes. However, we confirmed that the a-tDCS M1 protocol used in this study might increase cortical excitability in the lower limb motor cortex. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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