Hafner Brian J, Askew Robert L
J Rehabil Res Dev. 2015;52(6):677-700. doi: 10.1682/JRRD.2014.09.0210.
Prosthetic knees are a vital component in an artificial limb. Contemporary knees include passive, (mechanical), adaptive (computerized), or active (motorized) control systems and have the potential to mitigate amputation-related functional impairments and activity limitations. A 14 mo randomized crossover trial was conducted. Participants (n = 12, mean age = 58 yr) were tested under three conditions: passive control (existing knee), adaptive control (Ossur Rheo Knee II), and active control (Ossur Power Knee II). Training and acclimation time were provided to participants in the adaptive and active knees. Outcome measures included indoor tests (Timed Up and Go test [TUG], stairs, and ramp), outdoor tests (walking course and perceived exertion), step activity monitor, self-report surveys (mobility, balance confidence, physical function, fatigue, and general health), and fall incidence. Mixed-effects linear regression modeling was used to evaluate data. Compared with passive control, adaptive control significantly improved comfortable TUG time (difference = 0.91 s, p = 0.001) and reported physical function (difference = 1.26 [T-score], p = 0.03). Active control significantly increased comfortable TUG, fast TUG, and ramp times (difference = 3.02, 2.66, and 0.96 s, respectively, all p < 0.03) and increased balance confidence (difference = 3.77, p = 0.003) compared with passive control. Findings suggest that adaptive knee control may enhance function compared with passive control but that active control can restrict mobility in middle-age or older users with transfemoral amputation.
ClinicalTrials.gov; "Use of Passive, Adaptive, and Active Prosthetic Knees in Persons With Unilateral, Transfemoral Amputation": NCT02219230; https://clinicaltrials.gov/ct2/show/NCT02219230.
假肢膝关节是假肢的重要组成部分。当代膝关节包括被动(机械)、自适应(计算机化)或主动(电动)控制系统,有可能减轻截肢相关的功能障碍和活动限制。进行了一项为期14个月的随机交叉试验。参与者(n = 12,平均年龄 = 58岁)在三种条件下接受测试:被动控制(现有膝关节)、自适应控制(奥索 Rheo Knee II)和主动控制(奥索 Power Knee II)。为使用自适应和主动膝关节的参与者提供了训练和适应时间。结果测量包括室内测试(定时起立行走测试 [TUG]、楼梯和坡道)、室外测试(步行路线和主观用力程度)、步数活动监测器、自我报告调查(活动能力、平衡信心、身体功能、疲劳和总体健康状况)以及跌倒发生率。采用混合效应线性回归模型评估数据。与被动控制相比,自适应控制显著改善了舒适的TUG时间(差异 = 0.91秒,p = 0.001)和报告的身体功能(差异 = 1.26 [T分数],p = 0.03)。与被动控制相比,主动控制显著增加了舒适的TUG、快速TUG和坡道时间(分别差异 = 3.02、2.66和0.96秒,均p < 0.03),并提高了平衡信心(差异 = 3.77,p = 0.003)。研究结果表明,与被动控制相比,自适应膝关节控制可能会增强功能,但主动控制可能会限制中年或老年经股骨截肢使用者的活动能力。
ClinicalTrials.gov;“单侧经股骨截肢者使用被动、自适应和主动假肢膝关节”:NCT02219230;https://clinicaltrials.gov/ct2/show/NCT02219230
