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• W4385268570 abstract "Abstract Background Despite reporting the positive effects of transcranial direct current stimulation (tDCS) on endurance performance, very few studies have investigated its efficacy in anaerobic short all-out activities. Moreover, there is still no consensus on which brain areas could provide the most favorable effects on different performance modalities. Accordingly, this study aimed to investigate the effects of anodal tDCS (a-tDCS) targeting the primary motor cortex (M1) or left dorsolateral prefrontal cortex (DLPFC) on physical performance, psychophysiological responses, and cognitive function in repeated all-out cycling. Methods In this randomized, crossover, and double-blind study, 15 healthy physically active men underwent a-tDCS targeting M1 or the left DLPFC or sham tDCS in separate days before performing three bouts of all-out 30s cycling anaerobic test. a-tDCS was applied using 2 mA for 20 min. Peak power, mean power, fatigue index, and EMG of the quadriceps muscles were measured during each bout. Heart rate, perceived exertion, affective valence, and arousal were recorded two minutes after each bout. Color-word Stroop test and choice reaction time were measured at baseline and after the whole anaerobic test. Results Neither tDCS montage significantly changed peak power, mean power, fatigue index, heart rate, affective valence, arousal, and choice reaction time (p> 0.05) . a-tDCS over DLPFC significantly lowered RPE of the first bout (compared to sham; p = 0.048, Δ = -12.5%) and third bout compared to the M1 ( p = 0.047, Δ = -12.38%) and sham ( p = 0.003, Δ = -10.5%) , increased EMG of the Vastus Lateralis muscle during the second (p = 0.016, Δ = + 40.3%) and third bout (p = 0.016, Δ = + 42.1%) compared to sham, and improved the score of color-word Stroop test after the repeated all-out task (p = 0.04, Δ = + 147%) . The qualitative affective response (valence and arousal) was also higher under the M1 and DLPFC compared to the sham. Conclusion We concluded that tDCS targeting M1 or DLPFC does not improve repeated anaerobic performance. However, the positive effect of DLPFC montage on RPE, EMG, qualitative affective responses, and cognitive function is promising and paves the path for future research using different tDCS montages to see any possible effects on anaerobic performance. Trial registration This study was approved by the Ethics Committee of Razi University (IR.RAZI.REC.1400.023) and registered in the Iranian Registry of Clinical Trials (IRCT id: IRCT20210617051606N5; Registration Date: 04/02/2022)." @default.
• W4385268570 created "2023-07-27" @default.
• W4385268570 creator A5017521283 @default.
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• W4385268570 date "2023-07-26" @default.
• W4385268570 modified "2023-10-14" @default.
• W4385268570 title "Effect of tDCS targeting the M1 or left DLPFC on physical performance, psychophysiological responses, and cognitive function in repeated all-out cycling: a randomized controlled trial" @default.
• W4385268570 cites W1909035294 @default.
• W4385268570 cites W1915761828 @default.
• W4385268570 cites W1976202125 @default.
• W4385268570 cites W1977562972 @default.
• W4385268570 cites W1982499218 @default.
• W4385268570 cites W1999125202 @default.
• W4385268570 cites W2015473703 @default.
• W4385268570 cites W2018538312 @default.
• W4385268570 cites W2025492757 @default.
• W4385268570 cites W2025995993 @default.
• W4385268570 cites W2041791212 @default.
• W4385268570 cites W2049122205 @default.
• W4385268570 cites W2056131812 @default.
• W4385268570 cites W2075175894 @default.
• W4385268570 cites W2079020664 @default.
• W4385268570 cites W2080291159 @default.
• W4385268570 cites W2083416018 @default.
• W4385268570 cites W2091034768 @default.
• W4385268570 cites W2093980919 @default.
• W4385268570 cites W2123720445 @default.
• W4385268570 cites W2137010230 @default.
• W4385268570 cites W2141379535 @default.
• W4385268570 cites W2146042119 @default.
• W4385268570 cites W2149223842 @default.
• W4385268570 cites W2149628368 @default.
• W4385268570 cites W2164158597 @default.
• W4385268570 cites W2165453261 @default.
• W4385268570 cites W2165857685 @default.
• W4385268570 cites W2197689432 @default.
• W4385268570 cites W2294723523 @default.
• W4385268570 cites W2338876828 @default.
• W4385268570 cites W2414203248 @default.
• W4385268570 cites W2537129939 @default.
• W4385268570 cites W2605376995 @default.
• W4385268570 cites W2740458874 @default.
• W4385268570 cites W2741849094 @default.
• W4385268570 cites W2754664679 @default.
• W4385268570 cites W2763313226 @default.
• W4385268570 cites W2769021531 @default.
• W4385268570 cites W2795065521 @default.
• W4385268570 cites W2896626246 @default.
• W4385268570 cites W2900986435 @default.
• W4385268570 cites W2902083204 @default.
• W4385268570 cites W2905601189 @default.
• W4385268570 cites W2914724784 @default.
• W4385268570 cites W2936200023 @default.
• W4385268570 cites W2937447443 @default.
• W4385268570 cites W2943515894 @default.
• W4385268570 cites W2950342467 @default.
• W4385268570 cites W2971777549 @default.
• W4385268570 cites W2972114189 @default.
• W4385268570 cites W2984507064 @default.
• W4385268570 cites W2987126293 @default.
• W4385268570 cites W3002001289 @default.
• W4385268570 cites W3005344846 @default.
• W4385268570 cites W3028934666 @default.
• W4385268570 cites W3034411302 @default.
• W4385268570 cites W3111107140 @default.
• W4385268570 cites W3124708969 @default.
• W4385268570 cites W3127557099 @default.
• W4385268570 cites W3137363037 @default.
• W4385268570 cites W3138059749 @default.
• W4385268570 cites W3150630981 @default.
• W4385268570 cites W3157822237 @default.
• W4385268570 cites W3161398952 @default.
• W4385268570 cites W3164613554 @default.
• W4385268570 cites W3170485188 @default.
• W4385268570 cites W3183012001 @default.
• W4385268570 cites W3186141783 @default.
• W4385268570 cites W3193817955 @default.
• W4385268570 cites W3194181296 @default.
• W4385268570 cites W3202117925 @default.
• W4385268570 cites W4211081781 @default.
• W4385268570 cites W4224256729 @default.
• W4385268570 cites W4225776942 @default.
• W4385268570 cites W4255172936 @default.
• W4385268570 cites W4280625488 @default.
• W4385268570 cites W4295065999 @default.
• W4385268570 cites W4304890624 @default.
• W4385268570 cites W4308053506 @default.
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• W4385268570 doi "https://doi.org/10.1186/s12984-023-01221-9" @default.
• W4385268570 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37496055" @default.
• W4385268570 hasPublicationYear "2023" @default.
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