Watch this video to understand why NeuroTracker is used by many people in all different industries.
From ADHD to special forces and athletes to elderly. NeuroTracker is being used to improve humans everywhere
NeuroTracker seamlessly integrates into different programs and adapts to the unique needs of your business.
NeuroTracker offers a ready-to-use training solution that sets up in just 10 minutes. Benefit from expert pre-made training programs for all user types and start deriving value immediately.
Each session takes just 6 minutes, making it easy to integrate into busy schedules without disrupting routines.
Easily onboard, monitor, and manage multiple users from a single dashboard—ideal for healthcare providers, educators, and performance organizations.
Significant cognitive gains can be seen in as little as 2–3 hours of distributed training—accelerating ROI and client outcomes.
Nearly anyone can train with NeuroTrackerX—regardless of age, ability, or background. It's effective for diverse populations and use cases.
Train on-site or remotely, on desktop or tablet—ideal for hybrid workforces, telehealth, or distributed teams.
Track individual and group progress with real-time analytics. Identify trends, optimize outcomes, and measure impact with data you can trust.
Our cloud-based platform is built for security and scalability across any size team or organization.
Assign custom plans based on individual goals, cognitive baselines, or professional roles—from rehabilitation to high performance.
Gain in Concentration Ability and Sustained Attention
Increase in Perception Speed
Reduction in the Effects of Cognitive Fatigue
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With 15 years of independent research, NeuroTracker is a leading tool used by neuroscientists to study human performance.
Published Research Papers
Research Institutes Using NeuroTracker
Issued Patents and Patents Pending
Attention and feedback are known to play critical roles in learning. This preliminary study sought to assess the benefits of instant feedback within NeuroTracker task performance.
38 young adults (mean 23yrs old) completed 4 NeuroTracker sessions over two days. 19 participants were assisted with feedback on test performance throughout the sessions, and 19 were given no feedback. Pre and post training assessments were completed using the Continuous Performance Test II to measure cognitive function.
The participants assisted with feedback demonstrated greater improvement in NeuroTracker scores over the 4 sessions. The feedback group also demonstrated better transferability effects to the CPT-II task, reflected by a significantly decreased pre/post mean error rate. The results indicate that feedback has a positive effect on performance and may be an important aspect of transfer to cognitive functions.
A short NeuroTracker training intervention significantly improves fine motor-skills in elderly adults diagnosed with cognitive impairments.
To investigate if older populations with clinically diagnosed cognitive impairments associated with fine-motor skills difficulties could measurably benefit from a short cognitive training intervention.
38 elderly participants, half with mild cognitive impairment (MCI) and half with mild dementia (MD) completed a total of 36 sessions of NeuroTracker training. The Montreal Cognitive Assessment (MoCA) test was used to assess the baseline cognitive status, and two batteries of manual motor skills assessments completed before and after the training program.
The results showed clear and significant post-training improvements in both manual dexterity tests. Analysis indicated that only 90-minutes of NeuroTracker training was needed to achieve these benefits with these populations. The researchers concluded that this type of intervention could have a broad impact on the aging population in terms of their daily quality of life.
A single 6-min NeuroTracker assessment correlates with key NBA competition performance metrics across a season of play.
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.
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.
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.
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.
Comprehensive pre-post neuropsychological and qEEG neuroimaging assessments reveal robust and wide gains in college students' cognitive abilities.
To examine the effects of NeuroTracker training on standardised measures of attention, working memory, and visual information processing speed using standardized neuropsychological tests. Additionally to measure changes in brain state using functional brain imaging.
20 university-aged students were recruited and divided into an NT training group (30 sessions of NeuroTracker) and a non-active control group. Cognitive functions were assessed using standardized neuropsychological tests (IVA+Plus, WAIS-III, D-KEFS), and correlates of brain functions were assessed using quantitative electroencephalography (qEEG).
The trained group showed strong and consistent improvements in NeuroTracker speed thresholds throughout the training period. The NT group demonstrated significantly higher scores on the IVA+Plus Auditory, WAIS Symbol Search, WAIS Code, WAIS Block Design, WAIS Letter-Number Sequence, d2 Test of Attention, and D-KEFS Color Naming, Inhibition and Inhibition/Switching subtests (P < .01). For qEEG measures the NT group demonstrated significant relative power increases in a range of frequencies within the beta bandwidth, with both eyes open and closed resting states. These changes were observed across frontal regions of the brain (executive function) and represented increases in brain wave speed associated with heightened brain activity and neuroplasticity. Overall results indicated that NeuroTracker training can enhance attention, information processing speed, and working memory, and also lead to positive changes in neuroelectric brain function.
30 sessions of NeuroTracker training promotes safer driving skills on advanced driving simulators in both younger and older adults.
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.
NeuroTracker learning rates between collegiate male and female athletes and non-athlete peers reveals the cognitive neurodevelopmental benefits of sports.
To investigate playing sports influences cognitive capacities measured by NeuroTracker, as well as to see if such effects differs between young males and females.
72 individuals aged 16 to 22 were split into 4 groups: male athletes, female athletes, male non-athletes and female non-athletes. All groups performed 15 sessions of NeuroTracker (approximately 90-mins) over 5 weeks.
All groups showed significant improvements across the NeuroTracker training. Initially, male athletes demonstrated higher performance compared to their female counterparts and non-athletes. The female athletes also maintained consistently higher scores than male non-athletes, as did male athletes over other groups. Overall, a clear cognitive advantage was associated with engaging in sports.
Isolated NeuroTracker training with elite professional athletes provides superior baselines and initial learning rates versus dual-task training.
This paper covers foundational concepts of NeuroTracker’s relevance to training of cognitive capacities deemed critical in sports performance, particularly in dynamic team-sports. It also contains a study investigating the effects of attentional loads in learning paradigms, with the aim of understanding optimal load conditions for training perceptual-cognitive ability.
4 elite professional sports teams trained their athletes on NeuroTracker (15-30 sessions) during their competition seasons. An English Premier Team club, a National Hockey League team, and a European Rugby team were all trained in the standard sitting down position to isolate any influence from attentional mechanisms involved in posture control. Another NHL team performed the training in standing position, involving basic balance demands on attention.
Taking the statistical average for learning progression on NeuroTracker, the three professional sports teams training in sitting position showed near identical progression, with rapid early learning slowing down towards longer term but continued learning. The standing sports team showed much lower NeuroTracker scores, but more importantly slower overall learning progression, with a large magnitude of difference to the other teams. The findings clearly demonstrate the link between balance control mechanisms and perceptual-cognitive demands solicited by NeuroTracker training. This demonstrates that cognitive training loads need to be sensitively optimized to attentional thresholds in order to generate effective short and longer term learning adaptations.
A variety of egg-based diets over 1-month improve performance on NeuroTracker compared to a no-egg diet.
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.
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.
Learn the Fundamentals of NeuroTracker Science & Technology through our Academy
NeuroTracker Academy is an education platform that has been designed by NeuroTracker experts and key opinion leaders. Find access to a wealth of resources and specialized application modules that will enable users and trainers alike to gain a deeper understanding of the science and technology.
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NeuroTracker is used by thousands of people, including high profile athletes and celebrities that share the same passion for improving their brain.