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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 perceptual-cognitive training can provide a proactive intervention to enhance cognition in older adults with memory problems.

47 healthy participants aged 60-90 with subjective memory problems were divided into active and control groups. All participants completed three robust neuropsychological assessments over a three- month period. Active participants completed these before, after and following a 7 week NeuroTracker training intervention.

The NeuroTracker trained group improved significantly on the task, with significant or major transfer to scores in memory tasks (e.g., CVLT-II: Immediate Free Recall; Short-Term Memory Recall, and Long- Term Memory Recall), working memory tasks (e.g., Digit Span Backward) and cognitive flexibility tasks (e.g., D-KEFS Verbal Fluency Category Switching and D-KEFS Verbal Fluency Letter Fluency). NeuroTracker scores also correlated to the scale of these improvements for processing speed, memory performance, and cognitive flexibility. Furthermore, some increased transfer benefits were found one month after the training intervention, potentially indicating heightened neurogenesis and promise for neuroplastic cognitive rehabilitation. The overall results suggest that this form of perceptual-cognitive training can significantly enhance cognition in a sustained way, with a relatively short training intervention.

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 examine if NeuroTracker training transfers to useful field of view (UFOV) performance, a measure strongly associated with driving performance.

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Twenty healthy young adults between the ages of 23 and 33 years were recruited and evenly assigned to either a NeuroTracker training program or active control group using a math game (2048). Both groups completed 5 hours of training distributed over 5 weeks. Both groups completed pre-post standardized assessments of UFOV.

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The NeuroTracker training group exhibited significantly improved UFOV performance, whereas the active control group showed only a small, statistically nonsignificant improvement in the task. The researchers suggest that NeuroTracker and UFOV performance are likely dependent on overlapping cognitive abilities, and that these abilities can be trained and measured in young adults which could lead to improving driving safety.

To examine the practical efficacy of cognitive enhancement interventions through a gold-standard template for assessing use of such tools, and to assess NeuroTracker evidence against the template for enhancing attention, working memory and visual information processing speed.

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To assess cognitive tools and NeuroTracker specifically against the following gold-standard criteria and with qEEG findings on changes in neuroelectric brain activity: 1. Robust transfer effects, 2. No Side Effects or Risk of Toxicity, 3. Minimal time and monetary investment, 4) Lasting effects, 5) No ethical issues, 6) Can be used in combination with other interventions, 7) Can be applied to any population.

3-hours of training over 5-weeks with NeuroTracker demonstrated robust effects on attention, working memory, and visual information processing speed as measured by neuropsychological tests. Corresponding changes measured by qEEG were also corroborated these intervention effects. NeuroTracker was concluded to meet the gold standard criteria in points 1, 2, 3, and 5, with some evidence to support the other points, but further research needed.

To enhance the visual perception ability of motorcycle taxi riders by using a NeuroTracker training intervention.

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60 motorcycle taxi riders were volunteers and recruited from Chonburi, Thailand, and randomly assigned to experimental and control groups. The experimental group completed 30-minutes of NeuroTracker training sessions for twice a week over five weeks in total. Pre-post assessments of the Development Test of Visual Perception – Adolescent and Adult (DTVP-A) were completed by both groups.

Results revealed that the experimental group had a significantly higher visual perception ability score after training. In addition, the average DTVP-A score in the experimental group increased to significantly higher than that of the control group. The study findings suggest NeuroTracker training can improve the visual perception ability of motorcycle taxi riders.

To review the existing perceptual-cognitive research and outline the relevance of NeuroTracker for the performance assessment and enhancement of competitive soccer abilities.

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Several papers published on NeuroTracker were reviewed, including ‘Perceptual-Cognitive Training of Athletes’, ‘3D-Multiple Object Tracking task performance improves passing decision-making accuracy in soccer players’, ‘Visual tracking speed is related to Basketball-specific measures of performance in NBA players’, and ‘Enhancing Cognitive Function Using Perceptual-Cognitive Training’.

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The combined existing research provides significant evidence for the usefulness of perceptualcognitive training to assess and enhance soccer abilities. Cognitive abilities are a significant feature of athletic excellence, and elite soccer players differ in their superior perceptual abilities in comparison to amateur players. NeuroTracker training has been found to improve high-level cognitive abilities known to be central factors in predicting soccer performance. Specifically, research has demonstrated that after just 3 hours of 3D multiple object tracking training, soccer players’ experienced a dramatic reduction in passing errors, from an error rate of 47%, down to just 28%.

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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.

The purpose of this study was to determine the relationship between visual tracking speed (NeuroTracker) and reaction time on basketball specific measures of performance.

12 professional NBA basketball players (Orlando Magic) were tested with a 1-session NeuroTracker baseline (6-mins), reaction time assessment, and the were results compared to competitive performance metric across an NBA season. Competition data analysis focused on Assists, Turnovers, Assist-to-turnover ratio, and Steals.

Finding show that relationships between NeuroTracker baselines were most strongly correlatedwith Assist-to-turnover ratio, and Turnovers. Backcourt players were more likely to outperform frontcourt players in AST and accordingly very likely to achieve higher NeuroTracker performance. Reaction time was not related to any of the basketball-specific performance measures. Overall a single NeuroTracker session baselines showed significant correlation to the NBA players’ ability to see and respond to various stimuli on the basketball court in ways that resulted in better performance.