GRP - Generation Research Program, Humanwissenschaftliches Zentrum, Ludwig-Maximilians-Universitat München, Prof,-Max-Lange-Platz 11, 83646, Bad Tölz, Germany.
J Neuroeng Rehabil. 2012 Aug 21;9:58. doi: 10.1186/1743-0003-9-58.
Many techniques that compensate for locomotion problems in daily life using externally controlled stimulation have recently been reported. These techniques are beneficial for effortlessly supporting patients' locomotive functions, but the users of such devices must necessarily remain dependent on them. It is possible that some individuals with gait impairment may be prevented recovering locomotive function. From a rehabilitation viewpoint, it may therefore be supposed that ideally, devices that can be used in daily life to improve the locomotive functions of the body itself should be proposed.
We evaluate the effectiveness of Walk-Mate, which has been used mainly as a gait compensation device, as a gait rehabilitation training device by analyzing improvement in locomotion before, during and after rehabilitation in hemiparetic patients and comparing it with a previous gait training method. Walk-Mate generates a model walking rhythm in response to a user's locomotion in real time, and by indicating this rhythm using auditory stimuli, provides a technology that supports walking by reducing asymmetries and fluctuations in foot contact rhythm. If patients can use the system to learn a regulated walking rhythm, then it may also be expected to fulfil the functions of a gait rehabilitation training device for daily life.
With regard to asymmetry, significantly improvements were seen for compensatory movement during training using Walk-Mate, but improvements were not retained as rehabilitative results. Regarding fluctuations in the foot contact period, significant improvement was observed for compensatory movement during training and these significant improvements were retained as rehabilitative results. In addition, it became clear that such improvement could not be adequately obtained by the previously proposed training technique utilizing constant rhythmic auditory stimulation.
Walk-Mate effectively compensated for locomotion problems of hemiparetic patients by improving gait rhythm both during and after training, suggesting that locomotive function can be effectively recovered in some patients. The interactive mechanism of Walk-Mate may be capable of simultaneously achieving the aims of gait compensation and gait rehabilitation training methods previously developed under individual frameworks. Walk-Mate is a promising technology for assisting the reintegration of disabled persons into society.
最近有许多使用外部控制刺激来补偿日常生活中运动问题的技术被报道。这些技术对于毫不费力地支持患者的运动功能非常有益,但这些设备的使用者必须始终依赖它们。一些有步态障碍的人可能会因此无法恢复运动功能。从康复的角度来看,因此可以假设,应该提出可以在日常生活中使用来改善身体自身运动功能的设备。
我们通过分析偏瘫患者康复前后的运动改善情况,并与之前的步态训练方法进行比较,评估了主要用作步态补偿设备的 Walk-Mate 作为步态康复训练设备的有效性。Walk-Mate 实时响应用户的运动生成模型行走节奏,并通过听觉刺激指示该节奏,提供一种通过减少脚接触节奏的不对称和波动来支持行走的技术。如果患者可以使用该系统学习有规律的行走节奏,那么它也可能具有日常生活中步态康复训练设备的功能。
就不对称性而言,使用 Walk-Mate 进行训练时的补偿运动得到了显著改善,但作为康复结果,这种改善并没有得到保留。就脚接触周期的波动而言,在训练期间的补偿运动中观察到了显著的改善,这些显著的改善作为康复结果得到了保留。此外,很明显,以前使用恒定节奏听觉刺激的训练技术无法充分获得这种改善。
Walk-Mate 通过在训练期间和之后改善步态节奏,有效地补偿了偏瘫患者的运动问题,这表明在某些患者中可以有效地恢复运动功能。Walk-Mate 的交互机制可能能够同时实现以前在单独框架下开发的步态补偿和步态康复训练方法的目标。Walk-Mate 是一种有前途的辅助残疾人士重新融入社会的技术。
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