Applied Sciences (Nov 2024)
Rewiring for Victory: Neuro-Athletic Training Enhances Flexibility, Serve Speed, and Upper Limb Performance in Elite Volleyball Players—A Randomized Controlled Trial
Abstract
This randomized controlled trial investigated the effects of neuro-athletic training (NAT) on flexibility, spike speed, and upper extremity stability in elite volleyball players. Thirty professional male athletes aged 18–23 years old (mean age of 19.5 ± 1.77 years old in the NAT group and 19.8 ± 1.87 years old in the control group) participated, with 26 completing this study. The participants were randomly assigned into an NAT intervention group or a control group continuing traditional training. Both groups trained three days per week for eight weeks, with the NAT program targeting neuromuscular adaptations while maintaining equal total training durations. Flexibility was assessed using the Sit and Reach Test, spike speed was evaluated using the Pocket Radar Ball Coach, and upper extremity stability was measured using the Closed Kinetic Chain Upper Extremity Stability Test (CKCUEST). The NAT group demonstrated significant improvements across all performance metrics. Flexibility increased significantly (p = 0.040; Cohen’s d = 0.845), indicating improved range of motion and musculoskeletal adaptability. Spike speed showed a highly significant improvement (p p = 0.002; Cohen’s d = 1.152), highlighting improved shoulder stability and motor control. In contrast, the control group did not show statistically significant changes in their flexibility (p = 0.236; Cohen’s d = 0.045), spike speed (p = 0.197; Cohen’s d = 0.682), or upper extremity stability (p = 0.193; Cohen’s d = 0.184). Between-group comparisons confirmed the superiority of the NAT intervention, with significant differences across all metrics (p-values ranging from 0.040 to <0.001) and effect sizes spanning from moderate to large (Cohen’s d = 0.845–1.503). These findings demonstrate the effectiveness of NAT in enhancing volleyball-specific performance metrics, emphasizing its potential to target neuromuscular adaptations for improved flexibility, power, and stability. Future studies should explore the long-term effects of NAT and its applicability across various sports disciplines.
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