Schiffer Thorsten, Knicker Axel, Dannöhl Regine, Strüder Heiko K
Institute of Motor Control and Movement Technique, German Sport University Cologne, Cologne, Germany.
Med Sci Sports Exerc. 2009 Mar;41(3):663-8. doi: 10.1249/MSS.0b013e31818b9321.
The purpose of the study was to identify the effect of three different surfaces on energy consumption and the forces acting on the walking poles during ground contact in Nordic walking (NW).
Thirteen female NW instructors (age = 26 +/- 4 yr, weight = 58.5 +/- 4.2 kg, height = 168.1 +/- 4.6 cm) volunteered in the study. The subjects walked a distance of 1200 m at a controlled, constant speed of 2.2 m x s(-1) on each of a concrete surface (C), an artificial athletics track (A), and a naturally grown soccer lawn (G). They used NW poles with inbuilt strain gauge force transducers to measure ground reaction forces acting along the long axes of the poles. Oxygen uptake, capillary blood lactate (La), HR, and RPE were measured before and after the tests.
Impact forces, maximum forces, force rates during ground contact identified from the registered force time histories, displayed significant differences related to the surface conditions. However, force time integrals did not show surface-related differences. Relative oxygen consumption showed significant differences between NW on C and on G whereas no surface-related differences could be identified between the surface conditions for the parameters La, HR, and RPE.
Our data indicate that the impulse that is generated by the poles on the subjects is identical between the varying surfaces. Because there are differences for the oxygen uptake between C and G, the main regulator for the propulsion must be the musculature of the lower extremities. The work of the upper extremities seems to be a luxury effort for Nordic walkers with a proper technique.
本研究的目的是确定三种不同地面在越野行走(NW)过程中与地面接触时对能量消耗以及作用于行走杖的力的影响。
13名女性越野行走教练(年龄 = 26 ± 4岁,体重 = 58.5 ± 4.2千克,身高 = 168.1 ± 4.6厘米)自愿参与本研究。受试者在混凝土表面(C)、人工田径跑道(A)和天然生长的足球草坪(G)上,以2.2米×秒⁻¹的受控恒定速度行走1200米。他们使用内置应变片式力传感器的越野行走杖来测量沿杖长轴方向的地面反作用力。在测试前后测量摄氧量、毛细血管血乳酸(La)、心率(HR)和主观用力程度(RPE)。
从记录的力随时间变化的历史曲线中确定的冲击力、最大力、地面接触期间的力变化率,显示出与地面条件相关的显著差异。然而,力随时间的积分未显示出与地面相关的差异。相对摄氧量在混凝土表面和足球草坪上的越野行走之间显示出显著差异,而对于乳酸、心率和主观用力程度这些参数,在不同地面条件之间未发现与地面相关的差异。
我们的数据表明,在不同地面上,行走杖作用于受试者产生的冲量是相同的。由于混凝土表面和足球草坪之间摄氧量存在差异,推进的主要调节因素必定是下肢肌肉组织。对于技术正确的越野行走者来说,上肢的作用似乎是一种额外的努力。
