研究不同剂量咖啡因与弹跳训练相结合对篮球运动员生理适应的影响。

Examining the impact of differing caffeine dosages in conjunction with plyometric training on physiological adaptations in basketball players.

机构信息

School of Physical Education, Wuhan Sports University, Wuhan, 430079, Hubei, China.

出版信息

Sci Rep. 2024 Jul 6;14(1):15571. doi: 10.1038/s41598-024-66275-8.

DOI:10.1038/s41598-024-66275-8

PMID:38971848

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11227551/

Abstract

The aim of the current study was to investigate the effects of ingesting different dosages of caffeine (CAF) prior to plyometric jump training (PJT) on sport-related performance and physiological parameters in male basketball players. Twenty-four young athletes were randomly divided into 3 groups and performed 6 weeks of PJT while consuming 3 mg·kg of body mass caffeine (CAF3, n = 8), 6 mg·kg body mass caffeine (CAF6, n = 8) or placebo (PL; n = 8) one hour prior to each training session. Before and after the 6-week PJT, the players were evaluated for field-based basketball-specific performance measures (vertical jump, 20-m sprint, Illinois change of direction speed [CODS], and maximal strength) and lab-based physiological (aerobic capacity and anaerobic power) parameters. CAF3, CAF6, and PL groups demonstrated significant improvements in vertical jump (ES = 1.07, 1.45, and 1.1, respectively), 20-m sprint (ES = - 0.50, - 0.61, and - 0.36), change of direction performance (ES = - 1.22, - 1.26, and - 1.09), maximal strength (ES = 1.68, 2.29, and 1.17), maximum oxygen uptake (V̇O) (ES = 1.09, 1.59, and 0.92), and peak (ES = 1.82, 1.85, and 0.82) and average power output (ES = 1.39, 1.32, and 1.07) after 6 weeks of training. Comparative analysis of individual adaptive responses to training indicated that the CAF6 led to insignificantly greater effects in vertical jump (ES = 1.45), maximal strength (ES = 2.29), and V̇O (ES = 1.59) with lower residuals in individual changes and lower coefficient of variations (CV) in mean group changes. Regarding sprint and CODS performance, both experimental groups indicated similar changes, residuals in individual changes, and CVs in mean group changes. Overall, consuming 6 mg·kg body mass caffeine induces superior adaptations in aerobic fitness, anaerobic power, and sport-specific performance measures, with lower inter-individual variability in the adaptations and more homogenized changes over the training period.

摘要

本研究旨在探讨在进行增强式跳跃训练（PJT）之前摄入不同剂量的咖啡因（CAF）对男性篮球运动员相关运动表现和生理参数的影响。将 24 名年轻运动员随机分为 3 组，在 6 周的 PJT 期间分别摄入 3mg·kg 体重的咖啡因（CAF3，n=8）、6mg·kg 体重的咖啡因（CAF6，n=8）或安慰剂（PL；n=8），并在每次训练前 1 小时服用。在 6 周 PJT 前后，对运动员进行基于场地的篮球专项表现评估（垂直跳跃、20 米冲刺、伊利诺伊变向速度[CODS]和最大力量）和基于实验室的生理（有氧能力和无氧能力）参数评估。CAF3、CAF6 和 PL 组的垂直跳跃（ES=1.07、1.45 和 1.1）、20 米冲刺（ES=-0.50、-0.61 和-0.36）、变向表现（ES=-1.22、-1.26 和-1.09）、最大力量（ES=1.68、2.29 和 1.17）、最大摄氧量（V̇O）（ES=1.09、1.59 和 0.92）和峰值（ES=1.82、1.85 和 0.82）和平均功率输出（ES=1.39、1.32 和 1.07）在 6 周的训练后均有显著提高。对训练的个体适应反应的比较分析表明，CAF6 导致垂直跳跃（ES=1.45）、最大力量（ES=2.29）和 V̇O（ES=1.59）的效果显著提高，个体变化的残余量较低，平均组变化的变异系数（CV）较低。关于冲刺和 CODS 表现，两个实验组都显示出相似的变化、个体变化的残余量和平均组变化的 CV。总体而言，摄入 6mg·kg 体重的咖啡因可诱导有氧适能、无氧能力和专项运动表现的改善，个体适应的变异性较低，训练期间的变化更加均匀。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee86/11227551/0c7cc609ecc7/41598_2024_66275_Fig1_HTML.jpg

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研究不同剂量咖啡因与弹跳训练相结合对篮球运动员生理适应的影响。

Examining the impact of differing caffeine dosages in conjunction with plyometric training on physiological adaptations in basketball players.

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