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To examine the transferability of perceptual-cognitive training using NeuroTracker to on-field soccer performance parameters.

22 NCAA Division I women’s soccer players (ages of 18-25) were split into trained and control groups. After baseline testing on NeuroTracker, the experimental group completed 10 NeuroTracker sessions (60-mins) over four-weeks. Game performance data, successful action, passing percentage, and short-medium range passing percentage, was collected utilizing Wyscout video analysis software during a competitive season.

NeuroTracker visual tracking speeds for the trained group significantly increased by 68% from pre-training baseline, while the control group had a 12% increase from baseline testing effects. Analysis showed no significant effects of training over the control group for on performance metrics, except for average in game passing-accuracy, which increased significantly over the control group.

To investigate if the decline in biological motion perception associated with healthy aging can be reversed with a short NeuroTracker training intervention.

13 participants completed 3-hours of NeuroTracker training over 5-weeks, and 28 control participants did either experimental training or no training (overall mean age of 67 years old). Pre-post assessments of biological motion perception was assessed with a VR walker (point like display) at 4m and 16m.

Pre-NeuroTracker training participants displayed significantly lower performance for interpreting human movement at 4m, compared to 16m. Controls showed no change post-training, whereas the NeuroTracker trained group's performance at 4m rose to the level of their performance at 16m. As biological motion perception abilities are deemed to be important for social skills, as well as critical for collision avoidance at 4m, the researchers concluded that the results demonstrate NeuroTracker to be a useful form of generic training for helping older people deal with socially relevant dynamic scenes.

To assess the learning capacities of elite athlete populations compared to amateur athletes and nonathlete university students on a neutral cognitive training assessment (NeuroTracker).

308 participants were assessed by completing 15 distributed NeuroTracker sessions, grouped as the following: 102 professional elite athletes (NHL, EPL and Top 14 Rugby), 173 NCAA elite non-professional athletes, and 33 non-athlete university students.

The results showed a clear distinction between level of athletic performance and corresponding fundamental mental capacities for learning a demanding abstract and dynamic scene task. Elite athletes showed significantly higher initial baselines than the other groups, along with substantially superior learning rates. The elite non-professional athletes also similarly significantly higher learning rates over the non-athletes group. For the first time this evidence suggest that a defining characteristic of elite professional athletes is their perceptual-cognitive learning prowess, associated with unusually high levels of neuroplasticity, and that NeuroTracker is a sensitive tool for objectively assessing these abilities.

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 investigate the relationship of executive functions and physical abilities in youth and adult elite soccer players.

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172 elite soccer players (12–34 years of age) were assessed on NeuroTracker, working memory capacity, cognitive flexibility, and inhibition. Another series of tests measured endurance-performance, repeated intense exercises, and maximal anaerobic performance.

NeuroTracker results correlated meaningfully with 30M sprint ability and counter-movement jumps. Moderate correlations were found between working memory capacity and cognitive flexibility with sprint performance and jumping ability, and inhibition with repeated intense exercises. Overall the findings indicated that anaerobic sprinting and jumping are more closely linked to cognitive skills than other physical abilities.

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Working Memory (WM) capacity has been linked to performance on a wide range of elementary and higher order cognitive tasks. Due to evidence suggesting that NeuroTracker speed thresholds are an indicator of the quality of high-level brain function, and because it is an adaptive task, the researchers selected NeuroTracker to investigate whether training could improve WM capacities. A further reason was to test a training approach with short intervention times for practical military implementations for the Canadian Armed Forces.

41 soldiers in the Canadian Armed Forces volunteered for the study. First they were tested on three WM span tasks: word (verbal) span, matrix span, and visual span, establishing a baseline measure for each test. Participants were then distributed evenly into 3 groups based on demographic and cognitive factors,Experimental group: performed 10 NeuroTracker Core sessions over a 2 week periodActive control group: performed an adaptive dual n-back task over a 2 week period Passive control group: No activity over a 2 week periodAt the end of the two weeks, the three WM span tests were retaken.

For the NeuroTracker group, speeds thresholds increased considerably over the 10 sessions, and training resulted in a significant pre-post increase in word span, matrix span, and visual span, with medium to large effect sizes. In contrast, for the active control, group training did not alter any of the WM span measures. Similarly, WM span measures did not alter for the passive control group. The researchers concluded that a short amount of NeuroTracker training can benefit WM capacity in a military sample. Additionally, the consistent NeuroTracker improvements across each type of WM span reflect a primarily domain-general construct (a generality of WM capacity).

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To investigate how perceptual–cognitive performance is affected during high-intensity interval training (HIIT) using NeuroTracker(NT) assessments.

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42 healthy adults were randomly assigned to an intervention (HIIT + NT, NT, HIIT) or control group. NT performance was measured pre-and post-test at 5, 15, and 25 min while running on a treadmill. The participants trained twice a week for a 4-week intervention period.

There was a significant interaction effect between pre/post-test and groups regarding perceptual-cognitive performance, indicating similar enhancements in the HIIT + NT and the NT group during exercise. HIIT influences physical fitness but did not show any impact on perceptual–cognitive performance. Overall training resulted in substantial task-specific gains. The researchers suggest combination training may be proposed as a training program to improve perceptual–cognitive, and physical performance in a time-efficient way.

Several studies have shown that aerobic exercise can slow age-related cognitive decline, and in some cases, improve cognitive function in the older population. The purpose of this study was to investigate for the first time, the effects of resistance training on cognitive function, as measured by changes in NeuroTracker measures.

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25 older adults with a mean age of 70yrs were split into a trained group (6 weeks of resistance exercises), and an untrained group. Perceptual-cognitive ability was measured pre and post training using NeuroTracker baselines.

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The older adults who performed six weeks of resistance training experienced significant improvements in perceptual-cognitive function as measured by NeuroTracker. Resistance training may therefore be an effective means to slow age related cognitive decline.

To investigate the effectiveness of NeuroTracker training with elite volleyball players as a form of off-court cognitive performance training.

43 elite volleyball athletes performed pre—post NeuroTracker baselines, along with several transfer tests. The active group completed an 8-week NeuroTracker training program in-between pre-post tests, which also included volleyball specific dual-tasks. The control group did no NeuroTracker training, but completed regular volleyball training.

Controls showed no change in pre-post NeuroTracker baselines, while the active group approximately doubled their NeuroTracker speed thresholds. Near transfer tests for sustained attention and processing speed showed significant gains for the NeuroTracker group only. A far transfer motor-skill test was used but was of insufficient difficulty to signficantly differentiate the active and control groups. The researchers concluded that NeuroTracker provides an example of an effective method for improving athlete's cognitive capacities with an off-court training intervention.