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Nutritional Supplements and the Brain.

International journal of sport nutrition and exercise metabolism
January 1, 1970
Romain Meeusen et al. (2 authors)
Journal ArticleReviewHuman Study
Study Details

Study Goal

The researchers aimed to determine whether Branched-Chain Amino Acids (BCAAs) influence cognitive function, perceived exertion, and exercise performance.

Results Summary

The study found mixed evidence on BCAAs' effects, with some studies showing influence on perceived exertion and mental performance, but well-controlled studies failing to demonstrate a positive impact on exercise performance.

Population

Athletes or individuals engaged in prolonged exercise (specific population not detailed).

Effective Dosage

Not specified

Duration

Not specified

Interactions

None mentioned

Extracted Claims (13)
InterventionDirectionEndpointPopulationDosageImpactClaim #
branched-chain amino acids
increase
ratings of perceived exertion and mental performance
-
-
can influence
#1
branched-chain amino acids
no change
exercise performance
-
-
failed to demonstrate a positive effect
#2
tyrosine supplementation
no change
performance during prolonged exercise
-
-
evidence of an ergogenic benefit is limited
#3
mild dehydration
decrease
cognitive performance and mood
-
-
can impair
#4
carbohydrate supplementation
increase
performance during prolonged exercise
-
-
beneficial effect
#5
hypoglycemia
decrease
brain function and cognitive performance
-
-
affects
#6
caffeine
increase
performance
-
-
can enhance
#7
caffeine
decrease
perception of effort
-
-
reduce
#8
caffeine
increase
specific reward centers of the brain
-
-
will influence
#9
plant products and herbal extracts (polyphenols, ginseng, ginkgo biloba)
increase
performance
animal studies
-
positive effects were shown
#10
polyphenols
increase
neurons against injury induced by neurotoxins
-
-
have the potential to protect
#11
polyphenols
decrease
neuroinflammation
-
-
suppress
#12
polyphenols
increase
memory, learning, and cognitive function
-
-
promote
#13
Abstract

Cognitive function plays an important role in athletic performance, and it seems that brain functioning can be influenced by nutrition and dietary components. Thus, the central nervous system might be manipulated through changes in diet or supplementation with specific nutrients including branched-chain amino acids, tyrosine, carbohydrates, and caffeine. Despite some evidence that branched-chained amino acids can influence ratings of perceived exertion and mental performance, several well-controlled studies have failed to demonstrate a positive effect on exercise performance. Evidence of an ergogenic benefit of tyrosine supplementation during prolonged exercise is limited. There is evidence that mild dehydration can impair cognitive performance and mood. The beneficial effect of carbohydrate supplementation during prolonged exercise could relate to increased substrate delivery for the brain, with numerous studies indicating that hypoglycemia affects brain function and cognitive performance. Caffeine can enhance performance and reduce perception of effort during prolonged exercise and will influence specific reward centers of the brain. Plant products and herbal extracts such as polyphenols, ginseng, ginkgo biloba, etc. are marketed as supplements to enhance performance. In several animal studies, positive effects of these products were shown, however the literature on their effects on sports performance is scarce. Polyphenols have the potential to protect neurons against injury induced by neurotoxins, suppress neuroinflammation, and to promote memory, learning, and cognitive function. In general, there remains a need for controlled randomized studies with a strong design, sufficient statistical power, and well-defined outcome measures before "claims" on its beneficial effects on brain functioning can be established.

Medical Subject Headings (MeSH)
Athletic PerformanceBrainCognitionDietDietary SupplementsFatigueHumansPerformance-Enhancing SubstancesSports Nutritional Physiological Phenomena
Study Links
Quality Scores
SafetyNot Assessed
Efficacy40/10
Quality70/10
Citation Metrics
Total Citations30
Citations/Year4.3
Relative Citation Ratio1.94
NIH Percentile73.7%
Research Impact Scores
APT Score0.75
Weight Score1.66
Normalized Score0.50
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