在人体进行剧烈的次最大运动期间，摄氧量的缓慢成分与额外的肌纤维募集有关。

The slow component of oxygen uptake during intense, sub-maximal exercise in man is associated with additional fibre recruitment.

作者信息

Krustrup Peter, Söderlund Karin, Mohr Magni, Bangsbo Jens

机构信息

Institute of Exercise and Sport Sciences, Department of Human Physiology, August Krogh Institute, University of Copenhagen, Universitetsparken 13, 2100 Copenhagen Ø, Denmark.

出版信息

Pflugers Arch. 2004 Mar;447(6):855-66. doi: 10.1007/s00424-003-1203-z. Epub 2004 Jan 31.

DOI:10.1007/s00424-003-1203-z

PMID:14758477

Abstract

Single muscle fibre metabolites and pulmonary oxygen uptake (VO2) were measured during moderate and intense, sub-maximal exercise to test the hypothesis that additional fibre recruitment is associated with the slow component of VO2. Seven healthy, male subjects performed 20 min moderate (MOD, approximately 50% of VO(2,max)) and intense (INT, approximately 80% VO(2,max)) cycling at 70 rpm. Glycogen content decreased significantly in type I and IIa fibres during INT, but only in type I fibres during MOD. During INT, creatine phosphate (CP) content decreased significantly both in types I and II fibres in the first 3 min (DeltaCP: 16.0+/-2.7 and 16.8+/-4.7 mmol kg(-1) d.w., respectively) and in the next 3 min (DeltaCP: 16.2+/-4.9 and 25.7+/-6.7 mmol kg(-1) d.w., respectively) with no further change from 6-20 min. CP content was below the pre-exercise level (mean-1 SD) in 11, 37, 70 and 74% of the type I fibres after 0, 3, 6 and 20 min of INT, respectively, and in 13, 45, 83 and 74% of the type II fibres. During INT, VO2 increased significantly by 6+/-1 and 4+/-1% in the periods 3-6 and 6-20 min, respectively (Delta VO(2,(6-3 min)): 0.14+/-0.02 l min(-1)), whereas VO2 was unchanged from 3 to 20 min of MOD. Exponential fitting revealed a slow component of VO2 during INT that appeared after approximately 2.6 min and amounted to 0.24 l min(-1). The present study demonstrates that additional type I and II fibres are recruited with time during intense sub-maximal exercise in temporal association with a significant slow component of VO2.

摘要

在中等强度和高强度的次最大运动期间，测量了单根肌纤维代谢物和肺摄氧量（VO₂），以检验额外的纤维募集与VO₂慢成分相关的假设。七名健康男性受试者以70转/分钟的速度进行了20分钟的中等强度（MOD，约为VO₂max的50%）和高强度（INT，约为VO₂max的80%）骑行。在高强度运动期间，I型和IIa型纤维中的糖原含量显著下降，但在中等强度运动期间仅I型纤维中的糖原含量下降。在高强度运动期间，肌酸磷酸（CP）含量在最初3分钟内I型和II型纤维中均显著下降（ΔCP分别为16.0±2.7和16.8±4.7 mmol·kg⁻¹干重），在接下来的3分钟内也显著下降（ΔCP分别为16.2±4.9和25.7±6.7 mmol·kg⁻¹干重），从6到20分钟没有进一步变化。在高强度运动0、3、6和20分钟后，分别有11%、37%、70%和74%的I型纤维以及13%、45%、83%和74%的II型纤维中的CP含量低于运动前水平（平均值-1标准差）。在高强度运动期间，VO₂在3至6分钟和6至20分钟期间分别显著增加6±1%和4±1%（ΔVO₂(6 - 3分钟)：0.14±0.02 l·min⁻¹），而在中等强度运动的3至20分钟期间VO₂没有变化。指数拟合显示在高强度运动期间VO₂存在一个慢成分，该慢成分在约2.6分钟后出现，量为0.24 l·min⁻¹。本研究表明，在高强度次最大运动期间，随着时间的推移，额外的I型和II型纤维被募集，这与VO₂的一个显著慢成分在时间上相关。

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在人体进行剧烈的次最大运动期间，摄氧量的缓慢成分与额外的肌纤维募集有关。

The slow component of oxygen uptake during intense, sub-maximal exercise in man is associated with additional fibre recruitment.

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