Leerskov Kasper S, Spaich Erika G, Jochumsen Mads R, Andreasen Struijk Lotte N S
The Neurorehabilitation Robotics and Engineering Group, 9260 Gistrup, Denmark.
The Center for Rehabilitation Robotics, 9260 Gistrup, Denmark.
Sensors (Basel). 2025 Jul 24;25(15):4571. doi: 10.3390/s25154571.
There are only a few available options for early rehabilitation of severely impaired individuals who must remain bedbound, as most exercise paradigms focus on out-of-bed exercises. To enable these individuals to exercise, we developed a novel hybrid rehabilitation system combining a brain-computer interface (BCI), functional electrical stimulation (FES), and a robotic device.
The BCI assessed the presence of a movement-related cortical potential (MRCP) and triggered the administration of FES to produce movement of the lower limb. The exercise trajectory was supported by the robotic device. To demonstrate the system, an experiment was conducted in an out-of-lab setting by ten able-bodied participants. During exercise, the performance of the BCI was assessed, and the participants evaluated the system using the NASA Task Load Index, Intrinsic Motivation Inventory, and by answering a few subjective questions.
The BCI reached a true positive rate of 62.6 ± 9.2% and, on average, predicted the movement initiation 595 ± 129 ms prior to the MRCP peak negativity. All questionnaires showed favorable outcomes for the use of the system.
The developed system was usable by all participants, but its clinical feasibility is uncertain due to the total time required for setting up the system.
对于必须长期卧床的严重受损个体,早期康复的可用选择很少,因为大多数运动模式都侧重于下床运动。为了使这些个体能够进行锻炼,我们开发了一种新型的混合康复系统,该系统结合了脑机接口(BCI)、功能性电刺激(FES)和机器人设备。
BCI评估与运动相关的皮层电位(MRCP)的存在,并触发FES的施用,以产生下肢运动。运动轨迹由机器人设备提供支持。为了演示该系统,在实验室外环境中对10名身体健全的参与者进行了一项实验。在运动过程中,评估了BCI的性能,参与者使用NASA任务负荷指数、内在动机量表并回答一些主观问题对系统进行了评估。
BCI的真阳性率达到62.6±9.2%,平均在MRCP负向峰值前595±129毫秒预测运动开始。所有问卷对该系统的使用都显示出良好的结果。
所开发的系统所有参与者都可以使用,但由于设置系统所需的总时间,其临床可行性尚不确定。
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