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Comment on 'ventilation and blood lactate increase exponentially during incremental exercise'.关于“递增运动期间通气量和血乳酸呈指数增加”的评论
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Running economy and distance running performance of highly trained athletes.高水平运动员的跑步经济性与长跑成绩
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Relationships of the anaerobic threshold with the 5 km, 10 km, and 10 mile races.无氧阈与5公里、10公里和10英里赛跑的关系。
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The validity of anaerobic threshold determination by a Douglas bag method compared with arterial blood lactate concentration.通过道格拉斯袋法测定无氧阈与动脉血乳酸浓度的比较的有效性。
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Determination of the anaerobic threshold by a noninvasive field test in runners.通过非侵入性现场测试确定跑步者的无氧阈。
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一名奥运选手的五年生理案例研究。

A five year physiological case study of an Olympic runner.

作者信息

Jones A M

机构信息

Department of Exercise and Sport Science, Crewe and Alsager Faculty, the Manchester Metropolitan University, United Kingdom.

出版信息

Br J Sports Med. 1998 Mar;32(1):39-43. doi: 10.1136/bjsm.32.1.39.

DOI:10.1136/bjsm.32.1.39
PMID:9562162
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1756052/
Abstract

OBJECTIVE

To study physiological changes caused by long term endurance training in a world class female distance runner, and to compare these changes with alterations in 3000 m running performance.

METHODS

The subject underwent regular physiological assessment during the period 1991-1995. Physiological measures made included body composition, maximal oxygen uptake (VO2MAX), running economy, and lactate threshold. In addition, the running speed at VO2MAX was estimated. Test protocols, laboratory equipment, and laboratory techniques used were the same for each test session.

RESULTS

The 3000 m race performance improved by 8% from 1991 to 1993 after which it stabilised. In contrast, VO2MAX fell from 1991 (73 ml/kg/min) to 1993 (66 ml/kg/min). Submaximal physiological variables such as lactate threshold (from 15.0 to 18.0 km/h) and running economy (from 53 ml/kg/min to 48 ml/kg/min at 16.0 km/h) improved over the course of the study. Despite no increase in VO2MAX, the reduction in the oxygen cost of submaximal running caused the estimated running speed at VO2MAX to increase from 19.0 km/h in 1991 to 20.4 km/h in 1995.

CONCLUSIONS

Improvement in 3000 m running performance was not caused by an increase in VO2MAX. Rather, the extensive training programme adopted, together perhaps with physical maturation, resulted in improvements in submaximal fitness factors such as running economy and lactate threshold. These adaptations improved the running speed estimated to be associated with VO2MAX, and resulted in improved 3000 m running performance.

摘要

目的

研究世界级女子长跑运动员长期耐力训练所引起的生理变化,并将这些变化与3000米跑成绩的变化进行比较。

方法

该受试者在1991年至1995年期间接受了定期的生理评估。所进行的生理测量包括身体成分、最大摄氧量(VO2MAX)、跑步经济性和乳酸阈。此外,还估算了VO2MAX时的跑步速度。每次测试所用的测试方案、实验室设备和实验室技术均相同。

结果

1991年至1993年,3000米比赛成绩提高了8%,之后趋于稳定。相比之下,VO2MAX从1991年的73毫升/千克/分钟降至1993年的66毫升/千克/分钟。在研究过程中,诸如乳酸阈(从15.0千米/小时提高到18.0千米/小时)和跑步经济性(在16.0千米/小时时从53毫升/千克/分钟降至48毫升/千克/分钟)等亚最大生理变量有所改善。尽管VO2MAX没有增加,但亚最大跑步氧耗的降低使得VO2MAX时的估算跑步速度从1991年的19.0千米/小时提高到了1995年的20.4千米/小时。

结论

3000米跑成绩的提高并非由VO2MAX的增加所致。相反,所采用的广泛训练计划,或许再加上身体成熟,导致了诸如跑步经济性和乳酸阈等亚最大体能因素的改善。这些适应性变化提高了与VO2MAX相关的估算跑步速度,并使3000米跑成绩得到提高。