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The purpose of this study was to investigate the relationship between the effects of 4-weeks of NeuroTracker training on in-game soccer performance measures.

13 NCAA Division I soccer players were split into trained and control groups. Both groups completed a NeuroTracker baseline. The trained group then completed 10 NeuroTracker training sessions (60 minutes) over a 4-week period. Soccer performance metrics were obtained from WyScout where 2 game averages were examined to compare pre-post-NT performance.

Data analysis revealed a moderate improvement of the trained group over the control group in passing accuracy, a 8.5% increase post-training, versus a 3.5% increase. Small non-significant improvements were also observed for successful actions and short+medium passes for the NeuroTracker trained group.

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To compare the efficacy of NeuroTracker training for concentration and game performance to conventional training.

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21 university basketball athletes were divided into a NeuroTracker training group (12 sessions) or a conventional training group. The Concentration Grid Test was used to measure concentration, and FIBA-Live Stats were collected to evaluate the game statistics and athlete performance, both pre- and post-training.

NeuroTracker training resulted in 42% greater improvement in post-training Concentration Grid Test results, compared to conventional training. No substantial improvements in game performance were found with either form of training.

To investigate the relationship between visual tracking speed (NeuroTracker) and soccer-specific performance measures.

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19 NCAA Division I soccer players completed 1 NeuroTracker core session baseline and soccer performance metrics were obtained from WyScout.

Statistical analyses showed a nonsignificant correlation between NeuroTracker score and passing accuracy, and a strong correlation found between consistency score (a sub-component measure of NeuroTracker) and passing accuracy. Specifically for attacking players there was a stronger correlation with consistency and passing accuracy. For defenders, consistency and defensive win rate had a strong correlation.

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.

This case report sought to examine in detail the effects of a combined intervention program (NeuroTracker and Memory Training) for recovering memory and attentional functions in an older individual.

1 healthy 80 year old male with frequent memory complaints underwent 32 NeuroTracker sessions of Sustain mode over 12 months, alongside Memory Training based on consciously learned mnemonic strategies. The patient completed a robust pre-mid-post training battery of tests on memory, quality of life and stress.

At the post-assessment stage, training proved effective for gains in sustained and alternatingattention, with above-average cognitive flexibility. Assessments for memory accuracy and processingspeeds showed a steadily rising curve. Improvements were evident in self-perceived attention,memory, quality of life and self-confidence. A reduction in stress symptoms was observed withmeasured improvements in physical, psychological and environmental domains. NeuroTracker scoresshowed a rising curve throughout the training program.Based on the case report findings, the researchers suggested such cognitive training programs shouldbe made available in private and public institutions for elderly care to improve quality of life and delaythe signs of senility during the aging process.

To investigate if the typically declining perceptual-cognitive abilities of healthy older people can be improved with NeuroTracker training.

20 younger adults (mean age 27 years old) and 20 older adults (mean age 66 years old) completed 3-hours of NeuroTracker training distributed over 3 weeks.

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Although older adults had significantly lower NeuroTracker scores than older adults, they demonstrated a strong learning response to the training, equivalent to their younger peers. By the end of the training program the older adults closely matched the initial baseline performance of younger adults. Although the results demonstrate a decline in perceptual-cognitive functions from healthy aging, the results suggest this decline can be quickly reversed with a short training intervention.

To identify across ages, in younger males and females, and to compare, in younger males, the anthropometrics, athletic abilities and perceptual-cognitive skills associated with baseball pitcher's ball velocity.

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Male and female athletes completed a sociodemographic questionnaire followed by anthropometric, athletic ability, perceptual-cognitive skill and pitching velocity assessments. Athletes were categorized by their age categories (11U, 13U, 15U, 18U, 21U). To evaluate the athletes' anthropometrics, height and weight, BMI, waist circumference, arms segmental length and girth were measured. Athletic abilities were assessed using athletes' grip strength, upper body power, vertical jump height, sprint, change of direction, and dynamic balance. Perceptual-cognitive skills performance was assessed with NeuroTracker, and pitching performance assessment was completed using the athletes' average fastball velocity.

In male athletes across each age category all anthropometric, athletic ability and perceptual-cognitive skill factors were associated with pitching velocity with associations, with effects being stronger the older the age category. NeuroTracker baselines has some of the strongest associations to pitching velocity and athletic abilities across age categories.

To investigate NeuroTracker baselines could be predictive of driving performance across 3 simulated scenarios, to see if these measures could be predictive of driving risks.

115 drivers were divided into three age and experience groups: young inexperienced (18-21 years old), adult experienced (25-55 years old) and older adult (70-86 years old). Participants were tested for 2 hours across three different driving scenarios varying in mental workload (low, medium, high), using a highly sophisticated driving simulator. A total of 18 different metrics on driving behavior were evaluated and compared to NeuroTracker baseline scores.

Statistical analysis of NeuroTracker results and driving performance metric yielded significant correlations, including being predictive of driving speed, breaking speed, and reaction to dangerous events. Low NeuroTracker scores effectively predicted elevated risks of crashes. Lower NeuroTracker scores also correlated significantly with slower average driving speed for older adults, providing evidence towards the theory that driving more slowly is related to the cognitive effects of aging.

To investigate the extent to which older people's abilities predict biological motion cues to declines with natural aging, and to see if any such effects can be reversed through a NeuroTracker training intervention.

41 older adults with mean age of 68yrs old were divided into trained, active control (placebo), and passive control (no training) groups. They were measured on a standardized BMP post training, which consisted of 15 NeuroTracker sessions distributed over 5 weeks.

Only the NeuroTracker trained group showed transfer to BMP, who demonstrated substantial improvements in processing BMP at 4m. The conclusion was a clear and positive transfer of perceptual-cognitive training onto a socially relevant ability in the elderly.

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