冷却与缺氧对前臂疲劳发展的交互作用。

The interactive effect of cooling and hypoxia on forearm fatigue development.

作者信息

Lloyd Alex, Hodder Simon, Havenith George

机构信息

Environmental Ergonomics Research Centre, Loughborough University, James France Bldg, Loughborough, Leicestershire, LE11 2TU, UK.

出版信息

Eur J Appl Physiol. 2015 Sep;115(9):2007-18. doi: 10.1007/s00421-015-3181-1. Epub 2015 May 12.

DOI:10.1007/s00421-015-3181-1

PMID:25963379

Abstract

PURPOSE

To examine the effect of separate and combined exposure to hypoxia [normoxia (FIO2 = 0.21) vs. moderate altitude (FIO2 = 0.13)] and temperature [thermoneutral (22 °C) vs. cold (5 °C)] on muscle fatigue development in the forearm, after repeated low-resistance contractions.

METHODS

Eight males were exposed for 70 min to four separate conditions in a balanced order. Conditions were normoxic-thermoneutral (N), hypoxic-thermoneutral, normoxic-cold and hypoxic-cold. After 15-min seated rest, participants carried out intermittent dynamic forearm exercise at 15 % maximal isometric voluntary contraction (MVC) for eight consecutive, 5-min work bouts. Each bout was separated by 110 s rest during which MVC force was collected.

RESULTS

When exposed to hypoxia and cold independently, the exercise protocol decreased MVC force of the finger flexors by 8.1 and 13.9 %, respectively, compared to thermoneutral normoxia. When hypoxia and cold were combined, the decrease in MVC force was 21.4 % more than thermoneutral normoxia, reflecting an additive effect and no interaction. EMG relative to force produced during MVC, increased by 2 and 1.2 μV per kg (36 and 23 % of N) for cold and hypoxia, respectively. When the stressors were combined the effect was additive, increasing to 3.1 μV per kg (56 % of N).

CONCLUSION

When compared to exercise in thermoneutral normoxic conditions, both cold and hypoxia significantly reduce brief MVC force output. This effect appears to be of mechanical origin, not a failure in muscle fibre recruitment per se. Additionally, the reduction in force is greater when the stressors are combined, showing an additive effect.

摘要

目的

研究单独及联合暴露于低氧环境[常氧（FIO2 = 0.21）与中度海拔（FIO2 = 0.13）]和温度[热中性（22°C）与寒冷（5°C）]对重复低阻力收缩后前臂肌肉疲劳发展的影响。

方法

8名男性以平衡顺序分别暴露于4种不同条件下70分钟。条件分别为常氧-热中性（N）、低氧-热中性、常氧-寒冷和低氧-寒冷。在静坐休息15分钟后，参与者以最大等长自主收缩（MVC）的15%进行间歇性动态前臂运动，连续进行8次，每次5分钟的工作回合。每个回合之间有110秒的休息时间，在此期间收集MVC力量。

结果

与热中性常氧相比，单独暴露于低氧和寒冷环境时，运动方案分别使手指屈肌的MVC力量降低了8.1%和13.9%。当低氧和寒冷联合时，MVC力量的降低比热中性常氧多21.4%，反映出相加效应且无相互作用。相对于MVC期间产生的力量，肌电图（EMG）在寒冷和低氧条件下分别增加了2和1.2 μV/kg（分别为N的36%和23%）。当应激源联合时，效应是相加的，增加到3.1 μV/kg（N的56%）。

结论

与在热中性常氧条件下运动相比，寒冷和低氧均显著降低短暂的MVC力量输出。这种效应似乎源于机械因素，而非肌肉纤维募集本身的失败。此外，当应激源联合时，力量降低更大，显示出相加效应。

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冷却与缺氧对前臂疲劳发展的交互作用。

The interactive effect of cooling and hypoxia on forearm fatigue development.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

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结果

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