Abstract
Chronic intake of caffeine may produce a reduction in the potential performance benefits obtained with the acute intake of this substance. For this reason, athletes habituated to caffeine often use high doses of caffeine (≥9 mg/kg) to overcome tolerance to caffeine ergogenicity due to chronic intake. The main objective of the current investigation was to evaluate the effects of high caffeine doses on bar velocity during an explosive bench press throw in athletes habituated to caffeine. Twelve resistance-trained athletes, with a moderate-to-high chronic intake of caffeine (~5.3 mg/kg/day) participated in a randomized double-blind and randomized experimental design. Each participant performed three identical experimental sessions 60 min after the intake of a placebo (PLAC) or after the intake of 9 (CAF-9) or 12 mg/kg (CAF-12) of caffeine. In each experimental session, the athletes performed five sets of two repetitions of the bench press throw exercise with a load equivalent to 30% of their one-repetition maximum. In comparison to PLAC, the intake of caffeine increased peak and mean velocity (p < 0.01) during the five sets of the bench press throw exercise. There were no significant differences in peak and mean bar velocity between the two doses of caffeine (CAF-9 vs. CAF-12; p = 0.91, = 0.96, respectively). The ingestion of high doses of caffeine was effective in producing an increase in mean and peak bar velocity during the bench press throw in a group of habitual caffeine users. However, using CAF-12 did not offer additional benefits for performance with respect to CAF-9.
Highlights
Caffeine is the world’s most consumed psychoactive drug and is widely used as a ergogenic aid in competitive sports [1]
There is evidence based on investigations testing the effect of caffeine on isolated muscles under in vitro conditions to suggest that, under physiological concentrations of caffeine, this substance can potentiate skeletal muscle force and muscle power, which can contribute to the overall ergogenic effect of caffeine on resistance exercise [6]
The intake of CAF-9 (p < 0.01; effect size (ES) = 0.42) and CAF-12 (p < 0.01; ES = 0.42) increased mean velocity compared to PLAC
Summary
Caffeine is the world’s most consumed psychoactive drug and is widely used as a ergogenic aid in competitive sports [1]. There is evidence based on investigations testing the effect of caffeine on isolated muscles under in vitro conditions to suggest that, under physiological concentrations of caffeine, this substance can potentiate skeletal muscle force and muscle power, which can contribute to the overall ergogenic effect of caffeine on resistance exercise [6]. It seems that caffeine’s ergogenicity is obtained through a number of mechanisms that work synergistically to promote the performance-enhancing effect obtained with the acute consumption of this substance. The caffeine dose required to obtain a direct effect on the skeletal muscle is greater than that needed to block adenosine receptors [7]
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