Baseline NeuroTracker Performance Does Not Correlate to Overall Season Sport Performance in University Varsity Athletes

To investigate whether domain-specific cognitive training can enhance executive function performance in youth elite soccer players.

Elite youth soccer players completed a structured cognitive training program targeting perceptual-cognitive and executive processes. Standardized executive function measures were administered before and after the intervention to assess changes in cognitive performance.

Participants demonstrated significant improvements in executive function measures following the training intervention, suggesting that structured cognitive training may enhance higher-order cognitive processes relevant to athletic performance. These findings support the potential value of targeted cognitive training approaches within elite youth sport development programs.

To examine whether improvements in 3D-MOT performance transfer to objective in-game performance outcomes in competitive soccer players.

Youth soccer athletes completed a structured 3D-MOT training program across multiple sessions. Pre- and post-training NeuroTracker performance was measured, alongside objective game performance statistics collected during competitive play to evaluate potential transfer effects.

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While participants demonstrated significant improvements in 3D-MOT speed thresholds following training, no corresponding improvements were observed in match-based performance metrics. These findings suggest that gains in perceptual-cognitive tracking ability may not automatically translate to measurable in-game performance outcomes under competitive conditions.

To investigate whether dynamic visual tracking performance measured using a 3D multiple object tracking task differs across basketball players of varying competitive skill levels.

Basketball athletes from different performance tiers completed a 3D-MOT task designed to assess dynamic visual attention and tracking speed thresholds. Performance metrics were compared between higher- and lower-level players to determine whether tracking ability scales with competitive expertise.

Higher-level basketball players demonstrated significantly superior tracking performance compared to lower-level players, achieving faster speed thresholds and more stable tracking under dynamic conditions. These findings support the link between perceptual-cognitive capacity and competitive skill level, reinforcing the role of dynamic attention in high-performance sport.

To compare performance and muscle architecture changes in starters and nonstarters during a National Collegiate Athletic Association Division I women's soccer season.

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28 females (av. 20 years old) were assessed on NeuroTracker baselines, vertical jump power, repeated line drills and reaction time at preseason, midseason, and postseason. Muscle architecture changes using ultrasonography were assessed at preseason and postseason.

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Both starters and non-starters showed similar status or improvements on all assessments across the season, except for line drills performance, which showed greater improvements for starters. NeuroTracker and reaction time performance improved regardless of playtime. Results of muscle architecture analysis indicated that practice training alone provide sufficient stimulus for improving muscle quality during the competitive season. Overall starters did not display significant benefits from competition over athletes who performed training only.

To analyze the repeated effect of stroboscopic vision training on perceptual-cognitive and anticipation skills in soccer players.

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28 male soccer players randomized into two groups: Stroboscopic vision training and control groups. The trained group completed 8-weeks of stroboscopic training. Pre post assessments were completed for both groups, which included NeuroTracker baselines and assessments decision-making and anticipation skills.

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Both groups improved by similar amounts in NeuroTracker baselines and decision-making. However the trained group showed a larger improvement in anticipation skill than the control group. The findings suggest that stroboscopic vision training does not improve perceptual-cognitive functions or decision-making, but may aid anticipation skills in soccer athletes.

To examine the effects of 14-days ATP supplementation (adenosine 5′-triphosphate) on NeuroTracker visual tracking speed, reaction time, mood and cognition in a double-blind crossover study.

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22 adults were randomized to either an active PeakATP® group or a placebo control group and supplemented for 14-days. They then tested on 3 minutes of maximum intensity cycling. Pre, immediately post, and 60-minutes post, all participants completed a NeuroTracker baseline, a visuomotor reaction test (Dynavision D2), a Profile of Mood States Questionnaire and a cognition assessment (ANAM). After another 14 days of no supplementation, the active and control groups were then reversed and the whole procedure was repeated.

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NeuroTracker results improved on the second testing procedure, however average differences between active and control groups were negligible. No significant interactions were found on the other assessments, apart from reaction time performance, which improved meaningfully with post ATP supplementation. The results suggest ATP may help decrease fatigue related effects from intense bouts of exercise, but not higher-level cognitive functions.