Effects of Focal Vibration and Robotic Assistive Therapy on Upper Limb Spasticity in incomplete Spinal Cord Injury

Tijana Jevtic Vojinovic, Emma Linley, A. Zivanovic, R. Loureiro
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引用次数: 4

Abstract

Vibration stimulation seems to be an affordable easy-to-use rehabilitation tool. Focal muscle vibration (FV) has potential to reduce spasticity and enhance muscle strength and performance. Combined with robotic assisted movement therapy, the rehabilitation can benefit from improvement of more than one aspect. For example, FV could firstly decrease abnormally increased muscle tone and joint rigidity by tackling volitional control for easier robotic movement exercise. Exactly this approach is evaluated within a clinical trial presented in this paper. FV were applied to relaxed spastic wrist flexor and extensor muscles for 15min. Subsequently, the wrist was engaged in a robotic-assisted game-playing. Results from two cases who completed the trial showed short-term decrease in wrist stiffness as assessed by clinical spasticity measurement Modified Ashworth Scale (MAS). Active range of motion (AROM) and engineering joint stiffness (JS) measurements were estimated using a robotic apparatus and the results complemented previous observations. The AROM increased and JS decreased for both cases when compared at the beginning and at the end of each interventional session. These results are a part of an ongoing clinical trial but show promise for reducing repercussions of spasticity in incomplete spinal cord injury.
局部振动和机器人辅助治疗对不完全性脊髓损伤上肢痉挛的影响
振动刺激似乎是一种负担得起的易于使用的康复工具。局灶性肌肉振动(FV)具有减少痉挛和增强肌肉力量和性能的潜力。结合机器人辅助运动疗法,康复可以从多个方面得到改善。例如,FV首先可以通过解决意志控制来降低异常增加的肌肉张力和关节刚性,从而使机器人运动更容易。确切地说,这种方法是评估在临床试验中提出的论文。FV应用于松弛痉挛的腕屈伸肌15min。随后,手腕参与了机器人辅助的游戏。完成试验的两例患者的结果显示,通过临床痉挛测量修正Ashworth量表(MAS)评估,腕关节僵硬度短期降低。主动活动范围(AROM)和工程关节刚度(JS)测量使用机器人设备估计,结果补充了先前的观察结果。在每次干预开始和结束时,两种情况下的AROM增加,JS减少。这些结果是正在进行的临床试验的一部分,但显示出减少不完全性脊髓损伤痉挛的影响的希望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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