The Brain's Full Potential is Being Unlocked by Businesses Everywhere

To to determine whether a hydration plan based off of an athlete’s sweat rate and sodium loss, improves anaerobic and neurocognitive performance during a moderate to hard training session, as well as heart rate recovery from the session.

‍

15 NCAA collegiate athletes from Merrimack College from multiple sports first underwent a qualitative assessment for hydration habits and knowledge, then were assessed for sweat loss, and randomly assigned to either a prescription hydration plan (PHP) or asked to continue with their normal hydration habits (NHP). All participants completed underwent performance assessments prior, during, and immediately after a moderate to hard sports-specific training session. Assessments included NeuroTracker baselines, standing long jump, heart rate and Vo2 Max monitoring, as well as sodium and sweat loss monitoring.

‍

NeuroTracker baselines provided a clear indication that a prescription hydration plan has a significantly better influence on perceptual-cognitive functions, both pre and post physical training, compared to a normal hydration plan. Overall, the researchers conclude that this is the first investigation to show that an individually tailored hydration plan improves athletic performance for collegiate athletes engaged in a variety of sports.

3D vision (binocular stereo) develops during childhood and tends to reduce after 65 years of age. This study aimed to investigate whether these effects are significant when processing complex and dynamic motion.

Three groups of 20 subjects were recruited: children (7–12 years old), adults (18–40 years old) and older adults (≥65 years old). Each person completed 4 NeuroTracker sessions, 2 in 2D (no binocular stereo) and 2 in 3D (with binocular stereo).

As typical, adults achieved significantly higher NeuroTracker scores than children or elderly. They also gained a significantly larger advantage when performing NeuroTracker in 3D. In turn, children showed more advantage with 3D than elderly. This suggests that older populations have reduced ability to process complex and dynamic motion using stereoscopic processing. This study reveals that comparison between scores with and without stereoscopic effect, allows direct evaluation of the stereopsis advantage when performing NeuroTracker.

To investigate if the typically declining perceptual-cognitive abilities of healthy older people can be improved with NeuroTracker training.

20 younger adults (mean age 27 years old) and 20 older adults (mean age 66 years old) completed 3-hours of NeuroTracker training distributed over 3 weeks.

‍

Although older adults had significantly lower NeuroTracker scores than older adults, they demonstrated a strong learning response to the training, equivalent to their younger peers. By the end of the training program the older adults closely matched the initial baseline performance of younger adults. Although the results demonstrate a decline in perceptual-cognitive functions from healthy aging, the results suggest this decline can be quickly reversed with a short training intervention.

Attention and concentration are crucial abilities that affect the decision-making of athletes; e.g. during a soccer action, an athlete has to divide attention on the field (teammates, opponents, ball), to use selective attention (which player to give the ball to) and to focus attention (staring at the net to score). To this purpose, many benefits may arise from the high-level NeuroTracker conditioning technique as it stimulates active processing of dynamic visual information and trains perceptual- cognitive functions of athletes. In particular, it targets selective, dynamic and sustained attention, as well as working memory.

23 university soccer players participated in the study and were randomly allocated to three different groups. Experimental group: performed 30 NeuroTracker Core sessions over a 5 week period Active control group: performed 30 3D soccer videos sessions over 5 week periodPassive control group: No particular training activity over a 5 week period.Players ’ decision-making was evaluated during standardized small sided games before and after the training period. Decision-making of soccer players was objectively analysed through video recordings of the small sided games by a soccer coach blinded to the experimental protocol and using a standardized coding criteria. Subjective decision-making accuracy was directly evaluated from players’ confidence levels in decision-making promptly after the games using a Visual Analog Scale (Sport Performance Scale).

Only the NeuroTracker trained group showed an increase (15%) in passing decision making on the field after the training. Moreover, players’ subjective decision-making assessment was quantitatively proportional to the improvement in decision-making accuracy rated during video analysis for theNeuroTracker trained group.These results seem to demonstrate that passing decision-making accuracy improvement in the trained group represents a meaningful training effect. For the first time, this study demonstrates a perceptual-cognitive transfer from the laboratory to the field following a non-sport specific perceptual-cognitive training program.

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.

‍

To combine several tests known to assess driving fitness and propose a methodology to bring these together under a single index termed the ‘Driver’s Safety Index’.

‍

115 licensed drivers between the ages of 18 and 86 were separated into two groups: 64 young participants (average age of 29 years), and 51 older participants (average age of 77 years). Each participant was assessed on three different experimental phases. 1. Visual tests: visual acuity test (V1), stereoscopic vision test (V2), and a binocular visual field test (V3). 2. Simulator driving tests across 3 difficulty based scenarios: highway (low), rural (medium) and city (high). 3. NeuroTracker as a visuo-cognitive test. A wide range of driving performance metrics from the simulator test were analyzed for correlations with the visual tests, age, and NeuroTracker scores.

‍

There were limited correlations between driving performance and the visual tests. High NeuroTracker scores correlated strongly with high driving performance, and low scores with low driving performance, along with a strong relationship for crash risk. NeuroTracker scores were also a better predictor of driving performance than age. Driving abilities are strongly associated with NeuroTracker scores. These findings highlight the importance of visuo-cognitive abilities in the assessment of driving abilities. This study paves the way toward a single, common indicator of driving behaviour. The study authors recommend that NeuroTracker should be a component in the battery of tests for obtaining or renewing a driving license.

This was a pilot study with a selection of elementary school children based on test measures showing significant attention problems and impulse control, but not clinically diagnosed as ADHD. The purpose of this pilot study was to see if NeuroTracker has the potential be an efficacious short-term intervention for young students with severe attention impairments, based on changes in standardised neuropsychological assessments.

A test and control group of 5 Elementary school students each were included in the study, selected based on severely impaired rating on the IVA+PlusTM Continuous Performance Test. Both groups produced NeuroTracker initial baselines with statistically insignificant differences. The test group completed 21 five-minute NeuroTracker training sessions distributed over 3.5 weeks, the control group did no training. Both groups were then retested on the neuropsychological assessments.

The Test Group improved NeuroTracker speed thresholds by an average of 61% over the course of the training. The control group showed negligible difference in pre-post neuropsychological assessments scores, whereas the trained group showed variable but significant improvements across a range of visual and auditory measures. Gains were most pronounced in Prudence, Consistency and Focus in both visual and auditory domains, matching previous findings, and suggesting cross-modal performance transfer.In general the improvement ratios suggested that a short-term NeuroTracker training intervention can improve severe attention deficits towards moderate attention deficits in this population, with potential to positively impact learning outcomes at a young age.

‍

‍

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 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.