Gagnon Dany, Nadeau Sylvie, Noreau Luc, Dehail Patrick, Piotte France
Center for Interdisciplinary Research in Rehabilitation of Greater Montreal, Montreal Rehabilitation Institute, Montreal, Canada.
J Rehabil Res Dev. 2008;45(6):863-73. doi: 10.1682/jrrd.2007.11.0189.
This study compared shoulder and elbow joint forces and moments between weight-relief lifts (WRLs) and sitting pivot transfers (SPTs) among manual wheelchair users with spinal cord injury (SCI) (N = 13) during biomechanical laboratory assessment. Minimum and maximum values were reported for each triaxial component of the joint force at the dominant shoulder and elbow during SPTs (leading and trailing roles) and WRLs. Peak shoulder flexor and adductor moments, along with elbow flexor and extensor moments, observed during the same period were also analyzed. The SPTs predominantly exposed (p < 0.001) the shoulder joints to substantial posteriorly directed forces (leading = -2.6 N/kg; trailing = -3.1 N/kg) compared with WRLs (-2.2 N/kg), whereas superiorly directed forces (2.9 N/kg) were principally sustained ( p < 0.001) during WRLs compared with SPTs (leading = 1.5 N/kg; trailing = 1.5 N/kg). High superiorly directed forces (3.6 to 3.9 N/kg) were observed at the elbow, which were comparable (p = 0.33) between the two tasks. The peak shoulder flexor (leading = 1.36 N m/kg; trailing = 1.45 N m/kg) and adductor moments (leading only = -0.46 N m/kg), along with the peak elbow flexor moments (leading = 0.24 N m/kg; trailing = 0.15 N m/kg), were significantly more elevated (p < 0.021) during SPTs than during WRLs. Peak shoulder adductor (-0.46 vs -0.24 N m/kg) and elbow flexor moments were also more elevated ( p = 0.03) at the leading upper limb compared with the trailing one. The peak elbow extensor moments did not differ ( p = 0.167) between the two tasks (-0.17 to -0.25 N m/kg). SPTs exposed the shoulder and elbow joints to greater mechanical loads than WRLs among individuals with SCI.
本研究在生物力学实验室评估期间,比较了13名脊髓损伤(SCI)的手动轮椅使用者在减重抬举(WRL)和坐立位转移动作(SPT)过程中,肩部和肘部的关节力与力矩。报告了在SPT(主导和跟随动作)和WRL过程中,优势侧肩部和肘部关节力各三轴分量的最小值和最大值。同时还分析了同一时期观察到的肩部屈肌和内收肌峰值力矩,以及肘部屈肌和伸肌峰值力矩。与WRL(-2.2N/kg)相比,SPT使肩关节承受更大的向后方向的力(主导动作=-2.6N/kg;跟随动作=-3.1N/kg)(p<0.001),而与SPT(主导动作=1.5N/kg;跟随动作=1.5N/kg)相比,WRL过程中主要承受向上方向的力(2.9N/kg)(p<0.001)。在肘部观察到较高的向上方向的力(3.6至3.9N/kg),这在两项任务之间具有可比性(p=0.33)。与WRL相比,SPT过程中肩部屈肌(主导动作=1.36N·m/kg;跟随动作=1.45N·m/kg)和内收肌峰值力矩(仅主导动作=-0.46N·m/kg),以及肘部屈肌峰值力矩(主导动作=0.24N·m/kg;跟随动作=0.15N·m/kg)显著更高(p<0.021)。与跟随上肢相比,主导上肢的肩部内收肌(-0.46对-0.24N·m/kg)和肘部屈肌峰值力矩也更高(p=0.03)。两项任务之间肘部伸肌峰值力矩无差异(p=0.167)(-0.17至-0.25N·m/kg)。在脊髓损伤个体中,SPT使肩部和肘部关节承受的机械负荷比WRL更大。
