To examine whether individuals who play video games at a professional level in the esports industry differ from amateur video game players in their cognitive and learning abilities.
14 elite professional gamers and 16 casual video game players were assessed on a battery of standard neuropsychological tests evaluating processing speed, attention, memory, executive functions, and manual dexterity. In addition, both groups completed 15 distributed NeuroTracker sessions to assess dynamic visual attention and learning abilities.
Professional players showed the largest performance advantage relative to amateur players for visual spatial memory (Spatial Span), and with more modest benefits for selective and sustained attention (d2 Test of Attention), and auditory working memory (Digit Span). Professional players also had greatly higher initial speed thresholds on NeuroTracker, with the advantage increasing marginally over the 15 sessions. Overall, the cognitive assessments differentiated the professional and amateur groups, however there was negligible correlation with these results in terms of gaming experience in either group. In conclusion, standardized cognitive assessments revealed some elevated abilities of pro gamers, however NeuroTracker baselines and learning rates provided much more sensitive comparative measures.
NeuroTracker learning rates and neuropsychological assessments reveal that professional action video gamers possess superior attentional capacities.
To assess the extent to which action video game players perform better than non-gamers on cognitive functions measured by NeuroTracker and neuropsychological assessments.
14 professional and 16 amateur action video game players completed a battery of 7 standardized neuropsychological assessments, a manual dexterity test, and 14 NeuroTracker sessions. Statistical analysis techniques were used to compare cognitive differences.
Analysis revealed that high performance in professional action video games players is associated with enhanced abilities in visual spatial attention, visual and auditory short-term memory, and selective and sustained attention. No significant differences between professionals and amateurs were evident on tasks evaluating executive functions, perceptual manipulation, or manual dexterity. Although both groups displayed a similar learning capacity to improve at NeuroTracker over 90-mins of training, professionals exhibited a distinct performance advantage throughout the intervention. The results overall suggest that elite action video gamers have superior attentional control.
Professional esports players perform better at NeuroTracker than amateurs or traditional athletes, who also perform better than the normal population.
To compare the visual tracking performance of professional as well as amateur eSport players and traditional sportsmen using NeuroTracker.
19 professional players, 22 amateur players and 18 traditional sportsmen completed 3 NeuroTracker sessions. The first session was completed in 2D (non-stereo), and sessions 2 and 3 were completed in 3D (stereo). Experience and playtime data was also collected for analysis.
Professional players spent significantly more time playing esports than amateurs. Pearson correlations revealed positive associations between hours of esport / week and NeuroTracker scores. Mean session score averages across each session consistently found esport professional to have the highest NeuroTracker performance, following by traditional sportsmen. Analysis of prior NeuroTracker research showed that session scores for all three groups were higher than the scores of the normal population.
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.