Siegler J C, Keatley S, Midgley A W, Nevill A M, McNaughton L R
Department of Sport, Health and Exercise Science, University of Hull, Hull, United Kingdom.
Int J Sports Med. 2008 Jul;29(7):545-51. doi: 10.1055/s-2007-989261. Epub 2007 Nov 14.
The aim of this study was to observe the influence of pre-exercise sodium bicarbonate (NaHCO3) ingestion and varying recovery modes on acid-base recovery from a single bout of supramaximal exercise. Nine male subjects completed four separate, randomized cycle ergometer exercise trials to volitional fatigue at 120% maximum power output, under the following conditions: 0.3 g.kg(-1) BW NaHCO3 ingestion with passive recovery (BICARB P), 0.3 g.kg (-1) BW NaHCO3 ingestion with active recovery (BICARB A), placebo ingestion with passive recovery (PLAC P) and placebo ingestion with active recovery (PLAC A). Capillary blood samples were obtained every minute for 15 min during recovery. Significant main effects for pH were observed for time (F = 42.1, p < 0.001), intervention (BICARB and PLAC) (F = 1117.3, p < 0.001) and recovery condition (F = 150.0, p < 0.001), as the BICARB condition reduced acid-base perturbation. Significant interaction effects were observed between conditions (BICARB and PLAC) for active and passive recovery modes (F = 29.1, p < 0.001) as the active recovery facilitated H+ removal better than the passive condition. Pre-exercise alkalosis attenuates blood acid-base perturbations from supramaximal exercise to exhaustion, regardless of whether the recovery mode is active or passive. These findings suggest that individuals may benefit from introducing a pre-exercise alkalotic condition while including passive recovery during high-intensity training protocols.
本研究的目的是观察运动前摄入碳酸氢钠(NaHCO₃)以及不同恢复模式对单次超最大运动后酸碱恢复的影响。九名男性受试者在以下条件下完成了四项单独的、随机的自行车测力计运动试验,直至以最大功率输出的120%达到自愿疲劳:摄入0.3 g·kg⁻¹体重的NaHCO₃并进行被动恢复(BICARB P)、摄入0.3 g·kg⁻¹体重的NaHCO₃并进行主动恢复(BICARB A)、摄入安慰剂并进行被动恢复(PLAC P)以及摄入安慰剂并进行主动恢复(PLAC A)。在恢复过程中,每隔1分钟采集15分钟的毛细血管血样。观察到pH值在时间(F = 42.1,p < 0.001)、干预(BICARB和PLAC)(F = 1117.3,p < 0.001)和恢复条件(F = 150.0,p < 0.001)方面存在显著的主效应,因为BICARB条件减少了酸碱扰动。在主动和被动恢复模式的条件(BICARB和PLAC)之间观察到显著的交互效应(F = 29.1,p < 0.001),因为主动恢复比被动条件更有利于H⁺的清除。运动前碱中毒可减轻从超最大运动到疲劳的血液酸碱扰动,无论恢复模式是主动还是被动。这些发现表明,在高强度训练方案中,个体在引入运动前碱化状态并包括被动恢复时可能会受益。
