耐力运动员在中度急性低氧状态下最大摄氧量的决定因素。

Determinants of maximal oxygen uptake in moderate acute hypoxia in endurance athletes.

作者信息

Mollard Pascal, Woorons Xavier, Letournel Muriel, Lamberto Christine, Favret Fabrice, Pichon Aurélien, Beaudry Michèle, Richalet Jean-Paul

机构信息

Laboratoire Réponses cellulaires et fonctionnelles à l'hypoxie, Université Paris 13, 74 rue Marcel Cachin, EA2363, ARPE, 93017 Bobigny Cedex, France.

出版信息

Eur J Appl Physiol. 2007 Aug;100(6):663-73. doi: 10.1007/s00421-007-0457-0. Epub 2007 May 30.

DOI:10.1007/s00421-007-0457-0

PMID:17534646

Abstract

The factors determining maximal oxygen consumption were explored in eight endurance trained subjects (TS) and eight untrained subjects (US) exposed to moderate acute normobaric hypoxia. Subjects performed maximal incremental tests at sea level and simulated altitudes (1,000, 2,500, 4,500 m). Heart rate (HR), stroke volume (SV), cardiac output (.Q), arterialized oxygen saturation (Sa'O2), oxygen uptake (.VO2max), ventilation (.VE, expressed in normobaric conditions) were measured. At maximal exercise, ventilatory equivalent (.VE/.VO2max), O2 transport (.QaO2max) and O2 extraction (O2ERmax) were calculated. In TS, .Qmax remained unchanged despite a significant reduction in HRmax at 4,500 m. SVmax remained unchanged. .VEmax decreased in TS at 4,500 m, .VE/.VO2max was lower in TS and greater at 4,500 m vs. sea level in both groups. Sa'O2max decreased at and above 1,000 m in TS and 2,500 m in US, O2ERmax increased at 4,500 m in both groups. .QaO2max decreased with altitude and was greater in TS than US up to 2,500 m but not at 4,500 m. .VO2max decreased with altitude but the decrement (Delta.VO2max) was larger in TS at 4,500 m. In both groups Delta.VO2max in moderate hypoxia was correlated with Delta.QaO2max. Several differences between the two groups are probably responsible for the greater Delta.VO2max in TS at 4,500 m : (1) the relative hypoventilation in TS as shown by the decrement in .VEmax at 4,500 m (2) the greater.QaO2max decrement in TS due to a lower Sa'O2max and unchanged .Qmax 3) the smaller increase in O2ERmax in TS, insufficient to compensate the decrease in .QaO2max.

摘要

在八名耐力训练受试者（TS）和八名未训练受试者（US）中探索了决定最大摄氧量的因素，这些受试者暴露于中度急性常压低氧环境。受试者在海平面和模拟海拔高度（1000米、2500米、4500米）进行最大递增测试。测量心率（HR）、每搏输出量（SV）、心输出量（.Q）、动脉化血氧饱和度（Sa'O2）、摄氧量（.VO2max）、通气量（.VE，以常压条件下表示）。在最大运动时，计算通气当量（.VE/.VO2max）、氧运输量（.QaO2max）和氧摄取率（O2ERmax）。在TS组中，尽管在4500米时HRmax显著降低，但.Qmax保持不变。SVmax保持不变。在4500米时TS组的.VEmax降低，在4500米时TS组的.VE/.VO2max较低，且两组在4500米时均高于海平面时的值。在TS组中，1000米及以上海拔时Sa'O2max降低，在US组中2500米时Sa'O2max降低，两组在4500米时O2ERmax均增加。.QaO2max随海拔降低，在2500米及以下海拔时TS组的.QaO2max高于US组，但在4500米时并非如此。.VO2max随海拔降低，但在4500米时TS组的 decrement（Delta.VO2max）更大。在两组中，中度低氧时的Delta.VO2max与Delta.QaO2max相关。两组之间的几个差异可能是导致4500米时TS组Delta.VO2max更大的原因：（1）4500米时.VEmax降低所显示的TS组相对通气不足；（2）由于较低的Sa'O2max和不变的.Qmax，TS组的.QaO2max降低幅度更大；（3）TS组中O2ERmax的增加较小，不足以补偿.QaO2max的降低。

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Am J Physiol. 1946 Sep;147:191-8. doi: 10.1152/ajplegacy.1946.147.1.191.

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J Appl Physiol (1985). 2006 Feb;100(2):745-7; discussion 747-8. doi: 10.1152/japplphysiol.01395a.2005.

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J Appl Physiol (1985). 2006 Feb;100(2):744-5. doi: 10.1152/japplphysiol.01395.2005.

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耐力运动员在中度急性低氧状态下最大摄氧量的决定因素。

Determinants of maximal oxygen uptake in moderate acute hypoxia in endurance athletes.

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