Zahra Naghizadeh; Ahmadreza Movahedi; Mahdi Namazizadeh; Motahareh Mirdamadi
Abstract
The Effect of transcranial direct current stimulation (tDCS) has been studied in descriptive and laboratory tasks in the field of motor and sport skills. It is necessary that tDCS effects on real sport skills are investigated. The aim of the current study was to examine the Effect of tDCS on performance ...
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The Effect of transcranial direct current stimulation (tDCS) has been studied in descriptive and laboratory tasks in the field of motor and sport skills. It is necessary that tDCS effects on real sport skills are investigated. The aim of the current study was to examine the Effect of tDCS on performance of basketball two point field throws (BFT) in skilled basketball players. In this quasi- experimental study, we used a repeated measure design including a pretest, intervention, posttest and follow. A total of 26 male basketball players were randomly divided into either an experimental or a sham group. Both groups watched the point light model of the performance of two elite basketball players. Then, the participants of the exercise group received tDCS over their pre-motor cortex for 20 minutes. The participants of the sham group underwent identical tasks performance except that tDCS was artificially applied for them. BFT was assessed at baseline (pre-intervention), one day post-intervention and 7 days post-intervention. For analyzing data, two factor Mixed model ANOVA, independent and paired t-tests were used. Results showed that anodal tDCS created no between group's differences in BFT in the intervention phase while tDCS lead to significant improvement of BFT in experimental group skills compared to sham group in test phase. Results showed that tDCS could be considered as a useful intervention for the improvement of BFT in skilled basketball players.
Roya Mahdipour; Mahdi Namazizadeh; Rokhsareh Badami; Hamid Mirhosseini
Abstract
The aim of the current study was to compare the effects of the transcranial direct current stimulation (tDCS) of vision and motor cortex on learning of basketball free throw skill. In this semi-experimental study with repeated measure research design, 45 female students novice at basketball free throw ...
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The aim of the current study was to compare the effects of the transcranial direct current stimulation (tDCS) of vision and motor cortex on learning of basketball free throw skill. In this semi-experimental study with repeated measure research design, 45 female students novice at basketball free throw were selected by purposive sampling method and randomly assigned to three groups (each group 15 subjects): tDCS on vision cortex, tDCS on motor cortex and artificial stimulation. In pretest phase, participants had 15 basketball free throws. Intervention phase was performed in 6 consecutive days; firstly, electrical stimulation of the brain was daily performed from the motor cortex (C3 anode and Fp2 cathode), the visual cortex (Oz anode and Cz cathode) and artificial stimulation, and then participants performed 15 free basketball throws. In last session, posttest phase was carried out. One week and 21 days after the posttest phase, short-term and long-term retention phase was performed. Data were analyzed with mixed ANOVA. The results indicated that tDCS on motor cortex (F=16.908, sig=0.0001, η2 =0.547) and vision cortex (F=7.41, sig=0.001, η2=0.346) improved basketball free throw. Other results indicated that tDCS on motor cortex improved basketball free throw more than tDCS on vision cortex (p < 0.05). Overall, the results of the current study indicated that tDCS on motor cortex can be effective as a new training method in addition to physical training to improve basketball free throw skill.