精英短跑和耐力自行车运动员进行超最大强度测试后的血浆酸中毒和峰值功率:碳酸氢盐的影响
Plasma Acidosis and Peak Power after a Supramaximal Trial in Elite Sprint and Endurance Cyclists: Effect of Bicarbonate.
作者信息
Mildenhall Mathew J, Maunder E D, Plews Daniel J, Lindinger Michael I, Cairns Simeon P
机构信息
SPRINZ, School of Sport and Recreation, Faculty of Health and Environmental Sciences, Auckland University of Technology, Auckland, NEW ZEALAND.
Research and Development, The Nutraceutical Alliance, Burlington, Ontario, CANADA.
出版信息
Med Sci Sports Exerc. 2023 May 1;55(5):932-944. doi: 10.1249/MSS.0000000000003104. Epub 2022 Dec 13.
PURPOSE
This study aimed to determine whether (i) a plasma acidosis contributes to a reduction of mechanical performance and (ii) bicarbonate supplementation blunts plasma acidosis and arterial oxygen desaturation to resist fatigue during the end spurt of a supramaximal trial in elite sprint and endurance cyclists.
METHODS
Elite/world-class cyclists ( n = 6 sprint, n = 6 endurance) completed two randomized, double-blind, crossover trials at 105%V̇O 2peak simulating 3 min of a 4-km individual pursuit, 90 min after ingestion of 0.3 g·kg -1 BM sodium bicarbonate (BIC) or placebo (PLA). Peak power output (PPO), optimal cadence and optimal peak torque, and fatigue were assessed using a 6-s "all-out sprint" before (PPO1) and after (PPO2) each trial. Plasma pH, bicarbonate, lactate - , K + , Na + , Ca 2+ , and arterial hemoglobin saturation (SpO 2 (%)), were measured.
RESULTS
Sprint cyclists exhibited a higher PPO, optimal pedal torque, and anaerobic power reserve (APR) than endurance cyclists. The trial reduced PPO (PLA) more for sprint (to 47% initial) than endurance cyclists (to 61% initial). Optimal cadence fell from ~151 to 92 rpm and cyclists with higher APR exhibited a reduced optimal peak torque. Plasma pH fell from 7.35 to 7.13 and plasma [lactate - ] increased from 1.2 to 19.6 mM (PLA), yet neither correlated with PPO loss. Sprint cyclists displayed a lesser plasma acidosis but greater fatigue than endurance cyclists. BIC increased plasma [HCO 3- ] (+6.8 mM) and plasma pH after PPO1 (+0.09) and PPO2 (+0.07) yet failed to influence mechanical performance. SpO 2 fell from 99% to 96% but was unrelated to the plasma acidosis and unaltered with BIC.
CONCLUSIONS
Plasma acidosis was not associated with the decline of PPO in a supramaximal trial with elite cyclists. BIC attenuated acid-base disturbances yet did not improve arterial oxygen desaturation or mechanical performance at the end-spurt stage.
目的
本研究旨在确定:(i)血浆酸中毒是否会导致机械性能下降;(ii)补充碳酸氢盐是否能减轻血浆酸中毒和动脉血氧饱和度下降,从而在精英短跑和耐力自行车运动员进行超最大强度试验的冲刺阶段抵抗疲劳。
方法
精英/世界级自行车运动员(短跑组n = 6,耐力组n = 6)在摄入0.3 g·kg-1体重的碳酸氢钠(BIC)或安慰剂(PLA)90分钟后,以105%V̇O2峰值完成两项随机、双盲、交叉试验,模拟4公里个人追逐赛的3分钟。在每次试验前(PPO1)和试验后(PPO2)使用6秒“全力冲刺”评估峰值功率输出(PPO)、最佳踏频和最佳峰值扭矩以及疲劳程度。测量血浆pH值、碳酸氢盐、乳酸根、钾离子、钠离子、钙离子以及动脉血红蛋白饱和度(SpO2(%))。
结果
短跑自行车运动员比耐力自行车运动员表现出更高的PPO、最佳踏板扭矩和无氧功率储备(APR)。该试验使短跑自行车运动员的PPO(PLA)下降幅度(降至初始值的47%)大于耐力自行车运动员(降至初始值的61%)。最佳踏频从约151转/分钟降至92转/分钟,且APR较高的自行车运动员最佳峰值扭矩降低。血浆pH值从7.35降至7.13,血浆[乳酸根]从1.2毫摩尔/升升至19.6毫摩尔/升(PLA),但两者均与PPO下降无关。短跑自行车运动员的血浆酸中毒程度较轻,但比耐力自行车运动员疲劳程度更高。BIC使PPO1后(+6.8毫摩尔/升)和PPO2后(+0.09)的血浆[HCO3-]和血浆pH值升高,但未能影响机械性能。SpO2从99%降至96%,但与血浆酸中毒无关,且BIC对其无影响。
结论
在精英自行车运动员的超最大强度试验中,血浆酸中毒与PPO下降无关。BIC减轻了酸碱紊乱,但在冲刺阶段并未改善动脉血氧饱和度或机械性能。
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