在极其陡峭的上坡和下坡坡度行走与跑步的能量消耗。

Energy cost of walking and running at extreme uphill and downhill slopes.

作者信息

Minetti Alberto E, Moia Christian, Roi Giulio S, Susta Davide, Ferretti Guido

机构信息

Centre for Biophysical and Clinical Research into Human Movement, Department of Exercise and Sport Science, Manchester Metropolitan University, Alsager, Cheshire ST7 2HL, United Kingdom.

出版信息

J Appl Physiol (1985). 2002 Sep;93(3):1039-46. doi: 10.1152/japplphysiol.01177.2001.

DOI:10.1152/japplphysiol.01177.2001

PMID:12183501

Abstract

The costs of walking (Cw) and running (Cr) were measured on 10 runners on a treadmill inclined between -0.45 to +0.45 at different speeds. The minimum Cw was 1.64 +/- 0.50 J. kg(-1). m(-1) at a 1.0 +/- 0.3 m/s speed on the level. It increased on positive slopes, attained 17.33 +/- 1.11 J. kg(-1). m(-1) at +0.45, and was reduced to 0.81 +/- 0.37 J. kg(-1). m(-1) at -0.10. At steeper slopes, it increased to reach 3.46 +/- 0.95 J. kg(-1). m(-1) at -0.45. Cr was 3.40 +/- 0.24 J. kg(-1). m(-1) on the level, independent of speed. It increased on positive slopes, attained 18.93 +/- 1.74 J. kg(-1). m(-1) at +0.45, and was reduced to 1.73 +/- 0.36 J. kg(-1). m(-1) at -0.20. At steeper slopes, it increased to reach 3.92 +/- 0.81 J. kg(-1). m(-1) at -0.45. The mechanical efficiencies of walking and running above +0.15 and below -0.15 attained those of concentric and eccentric muscular contraction, respectively. The optimum gradients for mountain paths approximated 0.20-0.30 for both gaits. Downhill, Cr was some 40% lower than reported in the literature for sedentary subjects. The estimated maximum running speeds on positive gradients corresponded to those adopted in uphill races; on negative gradients they were well above those attained in downhill competitions.

摘要

在跑步机上对10名跑步者进行了行走（Cw）和跑步（Cr）成本的测量，跑步机的倾斜度在-0.45至+0.45之间，速度不同。水平状态下，速度为1.0±0.3米/秒时，Cw的最小值为1.64±0.50焦耳·千克⁻¹·米⁻¹。在正坡度时其增加，在+0.45时达到17.33±1.11焦耳·千克⁻¹·米⁻¹，在-0.10时降至0.81±0.37焦耳·千克⁻¹·米⁻¹。在更陡的坡度时，在-0.45时增加到3.46±0.95焦耳·千克⁻¹·米⁻¹。水平状态下，Cr为3.40±0.24焦耳·千克⁻¹·米⁻¹，与速度无关。在正坡度时其增加，在+0.45时达到18.93±1.74焦耳·千克⁻¹·米⁻¹，在-0.20时降至1.73±0.36焦耳·千克⁻¹·米⁻¹。在更陡的坡度时，在-0.45时增加到3.92±0.81焦耳·千克⁻¹·米⁻¹。行走和跑步在坡度高于+0.15和低于-0.15时的机械效率分别达到了向心和离心肌肉收缩的效率。两种步态的山间小径最佳坡度约为0.20 - 0.30。下坡时，Cr比久坐不动的受试者的文献报道值低约40%。正坡度上估计的最大跑步速度与上坡比赛中采用的速度相当；负坡度上的速度远高于下坡比赛中的速度。

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在极其陡峭的上坡和下坡坡度行走与跑步的能量消耗。

Energy cost of walking and running at extreme uphill and downhill slopes.

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