5 Clinical Trials for Various Conditions
Considering the important growing development of gaming in the world, this research area has developed considerably over the last few years. Even if it seems to be well admitted that video gamers showed better cognitive functions (e.g. visual selective attention, cognitive flexibility, task switching) parameters compared to non video gamers there is a constant concern for optimizing performance as for all other kind of athletes. However to our knowledge, only one randomized controlled trial have investigated the potential benefits of dietary supplementation on cognitive function and performance in video gamers. The use of microalgea as molecule of interest sources is a recent promising approach also to meet societal challenge as the maintain of biodiversity/landscape. Thus, the purpose of this study is to examine whether acute (single-dose) and chronic (1 month) supplementation of Microphyt's phaeosol ingredients (BrainPhyt) ingested with or without a natural stimulant, would affect cognitive function and gaming performance in experienced video gamers.
AMATEA™ is a patented dietary supplement consisting of a unique blend of caffeine and polyphenol antioxidants; standardized at 20% caffeine, 30% chlorogenic acids (similar to green coffee). In-house evaluations and anecdotal findings related to AMATEA have noted sustained energy without the typical "crash" and/or "jitters" experienced by some with caffeine ingestion alone. The aim of the present study is to compare the effects of AMATEA and caffeine alone on various measures of cognitive performance, mood, and gaming performance in men and women who regularly engage in gaming activity. The investigators hypothesize that both AMATEA and caffeine will improve outcome measures more than placebo, with greater improvement noted for the AMATEA condition due to the addition of the chlorogenic acid.
The purpose of this study is to determine how the doses of cognitive-enhancing ingredients such as citicoline and caffeine effect the efficacy of acute energy drink consumption for improving cognitive performance (primary outcome), gaming performance, mood, energy expenditure, and fat oxidation. This study will utilize an In vivo acute response, randomized, double-blind, placebo controlled, cross-over trial study design. Participants will complete consent, complete screening, and then undergo familiarization and complete four experimental study visits. In brief, participants will consume a commercially available energy drink specifically formulated to improve cognitive performance with the standard dose of Cognizin, a reduced dose of Cognizin, a reduced dose of caffeine and Cognizin, or a placebo (water, which will be carbonated, matched for flavor, mouthfeel, etc.), then complete a battery of computer-based cognitive performance test, tasks in a video game (Tetris) to assess video game performance, have their resting metabolism analyzed, and then assessments of mood. Following a 1-week washout period, participants will return and consume one of the four remaining beverages and complete the same tasks. They will participate in four experimental visits, each time consuming a different beverage until they have consumed all beverages and completed all necessary tasks. Question(s) and Hypotheses (stated in null) Q: Does acute consumption of a new formulations (reduced active ingredients \[citicoline and caffeine\]) of a commercially available energy drink elicit similar improvements in cognitive performance, mood, energy expenditure and fat oxidation in young adults than the standard, currently marketed dose to formulation? H1: Acute consumption of the commercially available energy drink with standard dosing will improve cognitive performance compared to the reduced dose beverages and the placebo. H2: Acute consumption of the commercially available energy drink with standard dosing will improve gaming (Tetris) performance compared to the reduced dose beverages and the placebo. H3: Acute consumption of the commercially available energy drink with standard dosing will improve mood compared to the reduced dose beverages and the placebo. H4: Acute consumption of a commercially available energy drink with standard dosing will increase energy expenditure and fat oxidation compared to the reduced dose beverages and the placebo.
Many studies have examined the effects of aerobic exercise and playing video games effects on cognitive performance, which results of which have shown to increase cognitive performance. Presently, there is limited research regarding the effects of the combination of gaming and exercise on cognitive performance. The purpose of our study is to investigate the effects of playing video games, aerobic exercise, and a combination of gaming and aerobic exercise on cognitive performance. Forty healthy subjects, males and females (18-30 years old) who perform moderate exercise at least two times a week will comprise our sample. The study will be a randomized clinical trial with four independent variables: playing video games, aerobic exercise, a combination of simultaneous gaming and aerobic exercise and a control condition. Aerobic exercise will be performed at an intensity of 60 to 70% of maximum heart rate on a Monarch Lower Body Ergometer. Brain Age Game: Train Your Brain in Minutes a Day! will be played on Nintendo 3DS. Executive function will be measured using the Stroop test and Trails B pre and posttest. Analysis of variance for Stroop test and Trails B will be used. In the event of significant F statistics, a post hoc test analysis will be used. The investigators hypothesize a combination of aerobic exercise and simultaneous gaming will produce the greatest increase in cognitive performance. Furthermore, these beneficial changes can be utilized in rehabilitation protocols designed to improve cognitive functioning.
The goal of this clinical trial is to learn if this ergonomic protocol can improve performance and reduce ergonomic risk in esports athletes. It will also learn about the insight of esports athletes and their experience in implementing this new protocol. The main questions it aims to answer are: Does this ergonomic protocol improve performance? Does this ergonomic protocol reduce ergonomic risk? Researchers will assign the protocol to esports athletes who meet inclusion criteria and express interest in participating in the study. A pre-post design will be conducted to note any differences. Participants will: * Participate in a 6-week study with 4 in-person visits * Volunteers will be requested to participate in a focus group during Week 6. * Implement the strengthening protocol 3x a week and a warm up/cool down protocol before and after each gaming session. * Attend one educational session about gaming ergonomics during Week 1 * Complete the Rapid Entire Body Assessment, Kovaaks Asessment, and a Questionnaire during Week Zero, Week 3, and Week 6.