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To examine physiological and cognitive differences between starters and non-starters in women’s soccer over the course of a season.

28 NCAA Division I female soccer players were tested at preseason and postseason on battery of assessments. This battery included a one session baseline NeuroTracker, vertical jump power, repeated line drills, reaction time, cognitive questionnaires, and finally, muscle architecture changes using ultrasonography.

Over the season, both groups had very similar NeuroTracker baselines, and both group’s speed thresholds improved significantly from pre-season to post-season. As there was no training intervention, the researchers concluded that this improvement effect revealed the positive influence of daily soccer practice on cognitive functions. This suggests NeuroTracker is a sensitive measure of the cumulative effects of sports training over time. These measures contrasted the cognitive questionnaire results, where the soccer player self-reported decreases in energy, focus and alertness, in line with increased fatigue, over the season.

To investigate the ‘selfish brain hypothesis’, which suggests the brain prioritizes its own glucose needs over those of the peripheral organs such as skeletal muscle, using individual and dual-task assessments with NeuroTracker and exercise on a cycle ergometer.

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32 participants were randomly assigned to a no priority, cognitive priority (focus on NeuroTracker task), or physical priority (focus on physical task) group. NeuroTracker and a cycle ergometer were used to measure cognition and physical performance, respectively. Participants completed 5 assessments: 2 cognitive, 1 predicted VO2 max, and 1 dual task. During the dual task participants completed 3 NeuroTracker sessions, while cycling on a cycle ergometer. The cycle ergometer was modified to remove demands on balance, isolating aerobic demands.

Results revealed that the physical priority group had significantly higher cycle ergometer performance compared to the cognitive priority group. However, overall physical performance remained relatively stable throughout the physical and dual task assessments. All groups experienced improvements in their visual tracking speed scores as they progressed through the study. No evidence was found to support the selfish brain hypothesis during dual task performance, in contrast results may indicate an arousal effect from physical exercise, heightening NeuroTracker performance compared to single task performance.

To investigate the relationship with NeuroTracker baselines and soccer player performance metrics across two professional seasons.

11 professional Greek soccer players from two major Super League football clubs completed a 6-min single NeuroTracker session baseline. Soccer-specific competition performance metrics were collected using the Wyscout analytics platform, including: team is winning/losing, actions with/without a yellow card, dribbles, through passes, forward passes, and assists.

Statistical analysis revealed NeuroTracker baseline score significantly correlated to actions when team is winning/losing, total actions without a yellow card, through passes, forward passes, and assists. The researchers suggest that such baselines could play a crucial and practical role in evaluating soccer players’ performance when under the demands of professional competition.

To investigate the feasibility of using a remote therapeutic cognitive intervention for brain injury survivors using an at-home training program.

20 older female and male adults were assessed for cognitive health status using a self-report questionnaire and the Mini-Mental State Examination (MMSE) and deemed cognitively healthy. The at-home participants were provided with NeuroTracker training and completed 20 training sessions over 5 weeks. Participant recruitment, retention, adherence, and experience were used as markers of feasibility. Individual session scores, overall improvement, and learning rates between groups was also assessed.

The remote intervention was found to have strong feasibility overall. This was supported by high recruitment and retention, 90% participant adherence, along with ease of use of the program. Differences in screen size and 3D technology showed no differences on cognitive benefits achieved from training, with significant improvements in task performance across the program, which was also equivalent to lab-based training. The researchers concluded that NeuroTracker provides a promising at-home option for cognitive training for cognitively healthy adults and brain injury survivors.

To investigate if working memory in Canadian Armed Forces can be improved with unsupervised remote NeuroTracker training as a practical performance enhancement tool.

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66 Canadian Armed Forces soldiers were randomly assigned to NeuroTracker training (30 sessions over two weeks), Dual n-back training, or a passive control group. Verbal and matrix WM span were assessed before and after training, along with the Multi-Attribute Task Battery: MATB-II multi-tasking assessment.

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Both active groups improved on the training tasks with 10-50% improvement in post-training working memory measures. No significant transfer was found for the MATB-II multi-tasking assessment.

The objective of the study was to examine MOT capability at different levels of cognitive load (tracking 1,2,3, or 4 objects) and its association to higher level processes, particularly fluid reasoning intelligence.

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70 adult participants (mean= 23 years of age) completed NeuroTracker and were then assessed on the Weschler Abbreviated Scale of Intelligence 2 test. Participants were asked to track one, two, three and four targets out of a total of 8 spheres for eight seconds.

The results showed that as the number of targets increased, the average speed the participants successfully tracked all the objects decreased. This finding allowed the researchers to confirm that average speed score can be used as a suitable metric for MOT and in turn, attention resource capacity. As a result, the outcomes indicate that visual tracking capability is positively associated with fluid reasoning intelligence. Consequently, this finding demonstrates that there is a link between fluid reasoning intelligence and MOT capability, especially in conditions of high load (tracking 4 out of 8 targets).

To assess if the mechanism of perceptual-cognitive training can transfer to spatial and semantic abilities in students.

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60 male lower secondary school students were randomly assigned a NeuroTracker training group (21 sessions over 7 days) or a passive control group (no training). Pre- and post-training assessment were carried out with the Test of Spatial Ability and the Test Of Semantic Skills–Intermediate.

The control group showed negligible change between pre and post tests, whereas the NeuroTracker group showed significant transfer with around a 50% gain in spatial ability and a 55% gain in semantic skills. The researchers concluded that a NeuroTracker intervention can increase cognitive abilities in secondary school students.

To investigate if NeuroTracker training can transfer to improved driving skills as measured by state-of-the-art driving simulators.

20 young adults and 14 older adults were divided into active and active-control groups. The active group completed 30 sessions of NeuroTracker training. Before and after training all participants were assessed using a high-fidelity driving simulator, which measured numerous aspects of driving performance.

The results of the study revealed that both young and older adults showed significant improvements in simulated driving performance following the NeuroTracker training. Specifically this included better lane keeping abilities, quicker reaction times to hazards, and enhanced overall situational awareness. The older adult group exhibited larger overall gains in driving performance. The researchers concluded that this study provides preliminary evidence that NeuroTracker training may improve driving safety, particularly through quicker detection of or reaction to dangerous events.

To evaluate the impact of the nutritional impact of dietary intake of whole eggs, egg white, and egg yolk on visual cognitive performance (NeuroTracker) in healthy older adults.

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99 healthy men and women aged 50 to 75 years were randomly assigned to one of five groups with different daily consumption of eggs alongside a record of their usual dietary intake. Over 1-month period participants either consumed four egg whites, two whole regular eggs, two whole omega-3-fortified eggs, four egg yolks, or no eggs (control). During the final 2 weeks of the study all participants completed 15 NeuroTracker.

On average male participants performed significantly better at NeuroTracker than females. All participants on egg-based diets performed significantly better across 2-weeks of NeuroTracker training than the no-egg controls. Findings suggest that whole eggs, egg whites and egg yolks are beneficial for visual cognitive performance in healthy older adults.