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不同倾斜度和速度条件下手摇车运动时的肩部负荷

Shoulder load during handcycling at different incline and speed conditions.

作者信息

Arnet Ursina, van Drongelen Stefan, van der Woude Lucas H V, Veeger DirkJan H E J

机构信息

Swiss Paraplegic Research, Nottwil, Switzerland.

出版信息

Clin Biomech (Bristol). 2012 Jan;27(1):1-6. doi: 10.1016/j.clinbiomech.2011.07.002. Epub 2011 Aug 9.

DOI:10.1016/j.clinbiomech.2011.07.002
PMID:21831491
Abstract

BACKGROUND

The manual wheelchair user population experiences a high prevalence of upper-limb injuries, which are related to a high load on the shoulder joint during activities of daily living, such as handrim wheelchair propulsion. An alternative mode of propulsion is handcycling, where lower external forces are suggested to be applied to reach the same power output as in handrim wheelchair propulsion. This study aimed to quantify glenohumeral contact forces and muscle forces during handcycling and compare them to previous results of handrim wheelchair propulsion.

METHODS

Ten able-bodied men propelled the handbike on a treadmill at two inclines (1% and 4% with a velocity of 1.66 m/s) and two speed conditions (1.39 and 1.94 m/s with fixed power output). Three-dimensional kinematics and kinetics were obtained and used as input for a musculoskeletal model of the arm and shoulder. Output variables were glenohumeral contact forces and forces of important shoulder muscles.

FINDINGS

The highest mean and peak glenohumeral contact forces occurred at 4% incline (420 N, 890 N respectively). The scapular part of the deltoideus, the triceps and the trapezius produced the highest force.

INTERPRETATION

Due to the circular movement and the continuous force application during handcycling, the glenohumeral contact forces, as well as the muscle forces were clearly lower compared to the results in the existing literature on wheelchair propulsion. These findings prove the assumption that handcycling is mechanically less straining than handrim wheelchair propulsion, which may help preventing overuse to the shoulder complex.

摘要

背景

手动轮椅使用者上肢受伤的患病率很高,这与日常生活活动(如手动轮椅推进)中肩关节承受的高负荷有关。一种替代的推进方式是手摇车,据推测,在这种方式下施加较低的外力就能达到与手动轮椅推进相同的功率输出。本研究旨在量化手摇车运动过程中的盂肱关节接触力和肌肉力量,并将其与之前手动轮椅推进的结果进行比较。

方法

10名身体健康的男性在跑步机上以两种坡度(1%和4%,速度为1.66米/秒)和两种速度条件(1.39和1.94米/秒,功率输出固定)推动手摇车。获取三维运动学和动力学数据,并将其用作手臂和肩部肌肉骨骼模型的输入。输出变量为盂肱关节接触力和重要肩部肌肉的力量。

结果

最高的平均和峰值盂肱关节接触力出现在4%的坡度下(分别为420牛和890牛)。三角肌的肩胛部分、肱三头肌和斜方肌产生的力量最大。

解读

由于手摇车运动过程中的圆周运动和持续施力,与现有轮椅推进文献中的结果相比,盂肱关节接触力以及肌肉力量明显更低。这些发现证明了手摇车在机械方面比手动轮椅推进的劳损更小这一假设,这可能有助于防止肩部复合体过度使用。

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