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Caffeine Improves Simulated 800-m Run Performance without Affecting Severe Exercise-Induced Arterial Hypoxemia.

Medicine and science in sports and exercise
January 1, 1970
Kohei Dobashi et al. (6 authors)
Randomized Controlled TrialJournal ArticleHuman StudyClinical
Extracted Claims (8)
InterventionDirectionEndpointPopulationDosageImpactClaim #
caffeine ingestion
increase
simulated 800-m run performance
16 (3 females) college middle-distance runners
-
improves
#1
caffeine ingestion
increase
running time to exhaustion
16 (3 females) college middle-distance runners
7.3% ± 6.2%
extended
#2
caffeine ingestion
no change
arterial oxygen saturation
16 (3 females) college middle-distance runners
-
did not differ
#3
caffeine ingestion
no change
minute ventilation
16 (3 females) college middle-distance runners
-
did not differ
#4
caffeine ingestion
no change
oxygen uptake
16 (3 females) college middle-distance runners
-
did not differ
#5
caffeine ingestion
no change
rate of perceived exertion
16 (3 females) college middle-distance runners
-
did not differ
#6
caffeine ingestion
increase
heart rate
16 (3 females) college middle-distance runners
-
was higher
#7
caffeine ingestion
increase
postexercise blood lactate concentration
16 (3 females) college middle-distance runners
-
was higher
#8
Abstract

PURPOSE: Although caffeine is known to possess ergogenic effects, previous studies demonstrated no effect of caffeine on 800-m run performance outdoors, which might be due to several uncontrolled factors including pacing strategies. We hypothesized that caffeine ingestion improves a pace-controlled simulated 800-m run performance. We also hypothesized that exercise-induced arterial hypoxemia occurs during the simulated 800-m run, and this response is mitigated by caffeine-induced increases in exercise ventilation. METHODS: In a randomized, double-blind, placebo-controlled and crossover design, 16 (3 females) college middle-distance runners who have 800-m seasonal best of 119.97 ± 7.64 s ingested either 1) placebo (6 mg of glucose per kilogram of body weight) or caffeine (6 mg of caffeine per kilogram of body weight). Then they performed an 800-m run consisting of 30-s running at 103% of their 800-m seasonal best, followed by running at 98% of seasonal best until exhaustion, which mimics actual 800-m run pacing pattern. RESULTS: Running time to exhaustion was extended by 7.3% ± 6.2% in the caffeine-ingested relative to placebo trial (123 ± 12 vs 114 ± 9 s, P = 0.04). Arterial oxygen saturation markedly decreased during the simulating running, but this response was similar (76.6% ± 5.7% vs 81.1% ± 5.2%, at 113 s of the simulating running) between the caffeine and placebo trials ( P ≥ 0.23 for time-supplement interaction and main effect of supplement). Minute ventilation, oxygen uptake (all P ≥ 0.36 for time-supplement interaction and main effect of supplement), and rate of perceived exertion (all P ≥ 0.11) did not differ between the trials throughout the simulating running. Heart rate was higher in the caffeine-ingested trial throughout the simulated running ( P < 0.01 for main effect of supplement). Postexercise blood lactate concentration was higher in the caffeine trial ( P = 0.02). CONCLUSIONS: Caffeine ingestion improves simulated 800-m run performance without affecting exercise ventilation and severe exercise-induced arterial hypoxemia.

Medical Subject Headings (MeSH)
FemaleHumansCaffeineRunningLactic AcidBody WeightDouble-Blind MethodCross-Over StudiesHypoxia
Study Links
Citation Metrics
Total Citations1
Citations/Year1.0
Research Impact Scores
APT Score0.05
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