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识别耐力表现中的瓶颈:传导定理。

Identifying bottlenecks in endurance performance: the conductance theorem.

作者信息

Shephard R J

出版信息

Can J Appl Physiol. 1999 Feb;24(1):22-7. doi: 10.1139/h99-003.

DOI:10.1139/h99-003
PMID:9916178
Abstract

The various transport processes that contribute to human endurance performance, such as oxygen intake, elimination of carbon dioxide, lactate and heat, and the delivery of metabolic fuels, can all be represented by conductance analogues. The use of such models is helpful in identifying bottlenecks within each of these systems, and in comparing parallel systems such as the intake of oxygen and the elimination of carbon dioxide. However, in order to make the models manageable, many simplifications are necessary, and corresponding caution is needed in drawing inferences from conductance analogues.

摘要

各种有助于人类耐力表现的运输过程,如氧气摄入、二氧化碳、乳酸和热量的消除,以及代谢燃料的输送,都可以用传导类似物来表示。使用这样的模型有助于识别这些系统中每个系统的瓶颈,并比较并行系统,如氧气摄入和二氧化碳消除。然而,为了使模型易于管理,有必要进行许多简化,并且在从传导类似物中得出推论时需要相应的谨慎。

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