Elite athletes and skilled specialists from teams and organizations like these. All trademarks and logos are intellectual property and owned by the respective organizations listed, not NeuroTracker, and does not represent a direct endorsement by such organizations
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
Start adding value to your services. Talk to our sales team whenever suits you!
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
Performing NeuroTracker with motor-skills reveals previously undetected ACL risks across different types of collegiate athletes.
This study investigated the effects of a simulated game-situation cognitive load (NeuroTracker) on lower limb biomechanics, using a landing task relevant to straining of the Anterior cruciate ligament (ACL). ACL injuries are known to be one of the most sports common injuries, and occurrence has been linked to cognitive factors.
7 college level healthy athletes (soccer, volleyball, football) performed 16 single-leg landing trials involving a jump forward and a lateral jump to the opposing leg. These movements were measured via force plates and motion capture of the legs and pelvis using 36 markers. The NeuroTracker task was assigned randomly to half of the trials (dual-task procedure), with jumps performed during the tracking phase.
While NeuroTracking hip and/or knee kinematics measurements were significantly different for all participants. The largest change was found with knee abduction angle, known to be most associated to ACL injury. Of the 7 participants, 4 showed biomechanical changes from the added NeuroTracker task that revealed increased ACL strain associated with ACL injury. Based on the preliminary findings, the researchers hypothesize that a NeuroTracker training intervention may reduce risk on of non-contact ACL injury, and will perform a larger study with more detailed biomechanical analysis.
NeuroTracker baselines and learning rates correlate with the dietary intake and sleep quality of esports athletes, revealing effects on cognition.
To investigate the influence of dietary intake and sleep of esports athletes on cognitive performance and learning capacities measured by NeuroTracker.
119 esports athletes completed a rigorous battery of assessments over an 8-10 day period. This included a comprehensive range of 8 self-assessment surveys, a record of diet, fluid intake and urine color, continuous biometric monitoring of heartrate and sleep quality, and 20 sessions of NeuroTracker distributed over the period.
Average sleep quality was found to be in the range of moderate to severe sleep disturbance and most participants did not meet USDA guidelines for numerous key nutrients, as well as exceeding recommendations for cholesterol, sodium, and saturated fat. NeuroTracker baselines improved on average by around 50% by the end of the 20 sessions (similar to elite athletes). Higher NeuroTracker performance was strongly correlated with better sleep and dietary habits, and specifically, consuming the recommended intake of protein was closely tied to increased learning rates.
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.
Detailed analysis of dietary intake in combination with daily NeuroTracker baselines reveals key nutrient levels for optimal perceptual-cognitive performance.
To examine the influence of nutritional intake on visual perceptual-cognitive performance, measured by NeuroTracker, in young healthy adults.
98 healthy men (38) and women (60) aged 18–33 years maintained their usual dietary intake while completing NeuroTracker 15 sessions of NeuroTracker over a 15-day period. Food logs and extensive lifestyle measures including body composition, cardiovascular health, sleep and exercise patterns, and general readiness to perform were collected for analysis.
Males consumed significantly more calories, macronutrients, cholesterol, choline, and zinc and performed significantly better on NeuroTracker than the females. Participants who consumed more than 40% of kcals from carbohydrates, less than 24% of kcals from protein, more than 2,000 μg/day lutein/zeaxanthin or more than 1.8 mg/ day of vitamin B2 performed significantly better on NeuroTracker than those who consumed less than those amounts. The researchers concluded that perceptual-cognitive performance is positively influenced by higher carbohydrate, lutein/ zeaxanthin, and vitamin B2 dietary intake, while high protein consumption had negative impacts.
A short NeuroTracker training intervention significantly improves off-the-block dive reaction times for elite collegiate swimmers.
To to determine if NeuroTracker training could affect off-the-block reaction times, by improving selection attention in university athlete swimmers.
15 male and female varsity swimmers were divided into active and control groups. The active group completed a training intervention of 10 NeuroTracker sessions, controls did no training. Pre and post training the participants were assessed 3 times on for off-the-block reaction times using the Ares Omega Timing System.
The control group showed a moderate improvement in reaction time, however the NeuroTracker trained group showed large improvement in reaction time (-11%). This pilot study indicates that selective attention may be a critical factor in reaction time performance, and that a short intervention of NeuroTracker training can significantly improve reaction times.
NeuroTracker training over 5 weeks improves the visual perception skills of motorcyclists.
To enhance the visual perception ability of motorcycle taxi riders by using a NeuroTracker training intervention.
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.
3-hours of NeuroTracker training dramatically improves older adults' abilities to predictively interpret human body language cues at close distances.
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.
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.
NeuroTracker and neuropsychological assessments reveal cognitive functions relate to sprinting and jumping abilities in elite soccer players.
To investigate the relationship of executive functions and physical abilities in youth and adult elite soccer players.
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.
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.
We proudly collaborate with a select group of innovative partners who share our passion for cognitive improvement. Their wide range of expertise helps apply the technology in cutting-edge ways, shaping the future of brain training. Join us to unlock your full potential!
Pukhya is a leading importer, supplier, and distributor of quality healthcare medical equipment in India, specializing in computer-aided cognitive rehabilitation, neuro and biofeedback, physiology, ergonomics, psychology products, yoga research, and sports medicine.
Breakthrough ADHD Center is a close-knit team of caring and multidisciplinary ADHD experts. Led by Dr. Sammy Oh, the center specializes in applying a holistic range of combined therapies customized to the needs of patients based on comprehensive assessments. This has included 300,000+ scans assessing the brain-body connection on thousands of clients.
Centre de dévelopement PAC provides personalized cognitive training solutions to improve the learning and performance abilities of students and employees, in both school and professional environments.
International Center Sports Mental Coaching aims to enhance athletes' mental performance. Using a unique methodology, they train the brain to focus under pressure, make quick decisions, and perform at its peak. They lead the Road to the Olympics project, training Ukrainian and Greek athletes.
eYe4vision is a neuro-optometric company and specializes in screening, profiling and training visual and cognitive skills. eye4Vision focuses on 4 target groups: Sports, Learning and Work related (Burn-out, children with reading and learning problems), Tactical and Health (people with cognitive, neurological disorders like a TIA, Concussion, ADHD, Whiplash; WAD etc.).
NeuroTracker is used by thousands of people, including high profile athletes and celebrities that share the same passion for improving their brain.
The #1 Most Scientifically Validated Cognitive Training System in the world. Built on 20 years of neuroscience research by leading authorities in their fields. Improve your brain and performance.