PURPOSE: To determine the effects of a caffeine-containing, commercially available energy drink on peak power produced during two, 20-second Wingate tests separated by 150 seconds. Methods In a randomized (order of beverage), double blind, placebo controlled cross-over AZD8931 ic50 design, 15 recreationally active subjects (9 males and 6 females; 21.7 ± 1.6 yrs; 172.7 ± 10.3 cm; 75.1 ± 20.2 kg) ingested a commercially available energy drink (containing 160mg of caffeine) or a placebo beverage that was matched for carbohydrate content and was similar in volume and texture. The average relative caffeine dosage for
each participant was 2.1 mg/kg. Approximately 60 minutes following ingestion of the energy drink or GW3965 mouse carbohydrate placebo, each participant engaged in two 20-second Wingate tests (Monark 894 E Peak Bike®). Approximately one week later, each participant engaged in the same protocol but ingested the other beverage. To serve as a warm-up prior to the first Wingate test at each trial, each participant was instructed to lightly jog for approximately 90 seconds, perform multiple vertical jumps, and then cycle at a self-selected pace for approximately
5 minutes. Following the warm-up, each participant performed two 20-second Wingate tests with each test separated by approximately 150 seconds. Peak power (measured in watts) for each of the two trials Barasertib nmr was recorded for statistical analysis. Peak power performance was analyzed via within-subjects repeated measures ANOVA using SPSS for Windows 15.0. Results The peak power achieved after ingesting the energy drink for the two Wingate tests (separated by 150 seconds) was 786.4 ± 245.9 and 722 ± 242 watts for the first and second tests, respectively. The peak power achieved after ingesting Morin Hydrate the carbohydrate
placebo beverage for the two Wingate tests (separated by 150 seconds) was 777.1 ± 276 and 716.7 ± 247.6 watts for the first and second tests, respectively.. The repeated measures ANOVA revealed that there was not a significant main effect for supplement (p = 0.495); but there was a significant main effect for time (the peak power was significantly higher for the first Wingate test as compared to the second Wingate test, irrespective of supplement; p = 0.001). Finally, there was no significant interaction between the energy drink and placebo beverage in relation to peak power production (p = 0.877). Conclusion Ingesting a caffeine-containing energy drink (160 mg of caffeine) 60 minutes prior to performing two 20-second Wingate tests will not improve peak power production. Acknowledgment This investigation was supported by a University of South Florida College of Education Mini-Grant.