对于经胫骨截肢者而言,以亚最大速度跑步时健全肢体与假肢的作用。
Running at submaximal speeds, the role of the intact and prosthetic limbs for trans-tibial amputees.
作者信息
Strike Siobhan C, Arcone Daniela, Orendurff Michael
机构信息
University of Roehampton, Department of Life Sciences, Whitelands College, SW15 4JD, London, UK.
University of Roehampton, Department of Life Sciences, Whitelands College, SW15 4JD, London, UK.
出版信息
Gait Posture. 2018 May;62:327-332. doi: 10.1016/j.gaitpost.2018.03.030. Epub 2018 Mar 27.
BACKGROUND
Dynamic Elastic Response prostheses are designed to absorb and return strain energy in running. Past research has focused on running prostheses with a single toe spring designed for high speeds.
RESEARCH QUESTION
To determine how runners with amputation modulate the ground reaction force of each limb to run at different speeds using a general-purpose dynamic prosthesis which has a heel spring.
METHODS
Overground running data were collected in 16 recreational runners (8 transtibial amputee using their own BladeXT prosthesis and 8 controls) using Vicon Nexus V.2.5 with Kistler force plates. Participants ran at self-selected running pace, 70% and 130% of that pace. Vertical, braking and propulsion peak ground reaction forces and impulses and vertical loading and decay rates were analysed between limbs at each speed (ANOVA) and their association with speed assessed (simple linear regression).
RESULTS
The vertical, braking forces and impulses and propulsive force were significantly less (p < 0.05) on the prosthetic limb than controls at the faster speed, but there was no difference in the propulsive impulse. The intact limb did not evidence increased vertical force at any speed, but experienced increased braking (p < 0.05) compared to both prosthetic limb and controls at the slow speed. For all limbs, braking and propulsive peak forces, decay rate, step length and step frequency were strongly (r > 0.6) and significantly (p < 0.05) associated with speed. On the prosthetic limb vertical impulse was strongly and significantly negatively associated with speed and control's braking impulse was associated with speed.
SIGNIFICANCE
A leg-specific response was found at different speeds. On the prosthetic limb the technique was to brake less not propel more at higher speeds with reduced vertical drive. Running at self-selected speed could be used for fitness without inducing detrimental ground reaction forces on the intact limb or evoking asymmetry in step length and frequency.
背景
动态弹性响应假肢旨在在跑步时吸收并返还应变能。过去的研究主要集中在为高速奔跑设计的单趾弹簧跑步假肢上。
研究问题
确定截肢跑步者如何使用带有足跟弹簧的通用动态假肢来调节每个肢体的地面反作用力,以实现不同速度的奔跑。
方法
使用带有Kistler测力板的Vicon Nexus V.2.5,收集了16名休闲跑步者(8名使用自己的BladeXT假肢的胫骨截肢者和8名对照组)的地面跑步数据。参与者以自我选择的跑步速度、该速度的70%和130%进行跑步。分析了每个速度下各肢体之间的垂直、制动和推进地面反作用力及冲量以及垂直加载和衰减率(方差分析),并评估了它们与速度的关联(简单线性回归)。
结果
在较快速度下,假肢肢体上的垂直、制动力及冲量和推进力显著小于对照组(p<0.05),但推进冲量没有差异。完整肢体在任何速度下均未表现出垂直力增加,但在低速时与假肢肢体和对照组相比,制动增加(p<0.05)。对于所有肢体,制动和推进峰值力、衰减率、步长和步频与速度密切相关(r>0.6)且具有显著相关性(p<0.05)。在假肢肢体上,垂直冲量与速度呈强烈且显著的负相关,而对照组的制动冲量与速度相关。
意义
在不同速度下发现了特定于腿部的反应。在假肢肢体上,技术要点是在较高速度下减少制动而非增加推进,并降低垂直驱动力。以自我选择的速度跑步可用于健身,而不会在完整肢体上产生有害的地面反作用力,也不会引起步长和步频的不对称。
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