Lundby C, Calbet J A L, Sander M, van Hall G, Mazzeo R S, Stray-Gundersen J, Stager J M, Chapman R F, Saltin B, Levine B D
Copenhagen Muscle Research Centre, Rigshospitalet, Copenhagen Ø, Denmark.
Scand J Med Sci Sports. 2007 Jun;17(3):281-91. doi: 10.1111/j.1600-0838.2006.00530.x.
For more than 60 years, muscle mechanical efficiency has been thought to remain unchanged with acclimatization to high altitude. However, recent work has suggested that muscle mechanical efficiency may in fact be improved upon return from prolonged exposure to high altitude. The purpose of the present work is to resolve this apparent conflict in the literature. In a collaboration between four research centers, we have included data from independent high-altitude studies performed at varying altitudes and including a total of 153 subjects ranging from sea-level (SL) residents to high-altitude natives, and from sedentary to world-class athletes. In study A (n=109), living for 20-22 h/day at 2500 m combined with training between 1250 and 2800 m caused no differences in running economy at fixed speeds despite low typical error measurements. In study B, SL residents (n=8) sojourning for 8 weeks at 4100 m and residents native to this altitude (n=7) performed cycle ergometer exercise in ambient air and in acute normoxia. Muscle oxygen uptake and mechanical efficiency were unchanged between SL and acclimatization and between the two groups. In study C (n=20), during 21 days of exposure to 4300 m altitude, no changes in systemic or leg VO(2) were found during cycle ergometer exercise. However, at the substantially higher altitude of 5260 m decreases in submaximal VO(2) were found in nine subjects with acute hypoxic exposure, as well as after 9 weeks of acclimatization. As VO(2) was already reduced in acute hypoxia this suggests, at least in this condition, that the reduction is not related to anatomical or physiological adaptations to high altitude but to oxygen lack because of severe hypoxia altering substrate utilization. In conclusion, results from several, independent investigations indicate that exercise economy remains unchanged after acclimatization to high altitude.
60多年来,人们一直认为肌肉机械效率会随着对高海拔环境的适应而保持不变。然而,最近的研究表明,在长时间暴露于高海拔环境后返回时,肌肉机械效率实际上可能会提高。本研究的目的是解决文献中这一明显的矛盾。在四个研究中心的合作中,我们纳入了来自不同海拔高度进行的独立高海拔研究的数据,共有153名受试者,包括从海平面(SL)居民到高海拔原住民,以及从久坐不动者到世界级运动员。在研究A(n = 109)中,每天在2500米处生活20 - 22小时,并结合在1250米至2800米之间进行训练,尽管典型误差测量值较低,但在固定速度下跑步经济性没有差异。在研究B中,SL居民(n = 8)在4100米处停留8周,以及该海拔高度的原住民(n = 7)在环境空气和急性常氧条件下进行了自行车测力计运动。SL组与适应组之间以及两组之间肌肉摄氧量和机械效率均未改变。在研究C(n = 20)中,在暴露于4300米海拔21天期间,自行车测力计运动时全身或腿部VO₂未发现变化。然而,在5260米这个高得多的海拔高度,9名急性低氧暴露受试者以及适应9周后,发现次最大VO₂有所下降。由于急性低氧时VO₂已经降低,这表明至少在这种情况下,这种降低与对高海拔的解剖学或生理学适应无关,而是由于严重低氧改变底物利用导致的缺氧。总之,几项独立研究的结果表明,适应高海拔环境后运动经济性保持不变。
