Bioengineering, University of São Paulo (USP), São Carlos, SP, Brazil.
Electrical & Computer Engineering Department, University of São Paulo (USP), São Carlos, SP, Brazil.
Spinal Cord Ser Cases. 2022 May 14;8(1):54. doi: 10.1038/s41394-022-00519-5.
Proof of concept.
Standard Functional Electrical Stimulation (FES) systems can enhance motor learning in people with tetraplegia and are widely delivered by self-adhesive electrodes. Their limitations are dexterity, specific knowledge to place the electrodes on muscles, need to fix electrodes when they lose the gel layer, and time. We designed a new FES system, using an existing protocol of drinking-like movements, to the upper limb of a person with tetraplegia C5 that fits in any anthropometry and can be easily produced. Furthermore, we tested the system to assess its effectiveness and users' perception during FES rehabilitation.
São Carlos, SP, Brazil.
A shell was designed with parametric design and fast-fabrication methods, and a stimulation unit and a smartphone application were developed. Questionnaires assessed the perceptions of a patient and a physiotherapist, about the usability of the new system in relation to standard FES. Kinematic data of drinking-like movements were collected from the patient wearing both systems and compared with data from an aged-matched control subject.
The results are a personalized shell and an intuitive FES system, overcoming the limitations of standard FES. The new system suggested better wrist-flexion control shown by the mean angles (-18.93°), then the other system (-59.35°), and compared with the control (-10.97°).
Fast-fabrication with parametric design offers a promising alternative for personalizing FES systems, with potential for home use. Further studies are required including randomized clinical trials.
概念验证。
标准功能性电刺激(FES)系统可以增强四肢瘫痪患者的运动学习能力,并且广泛使用自粘电极进行传输。它们的局限性在于灵巧性、在肌肉上放置电极的特定知识、当凝胶层丢失时需要固定电极,以及时间。我们设计了一种新的 FES 系统,使用现有的类似于饮水运动的协议,应用于一位 C5 位四肢瘫痪患者的上肢,该系统适合任何人体测量学,并且易于制作。此外,我们测试了该系统,以评估其在 FES 康复过程中的有效性和用户感知。
巴西圣卡洛斯。
使用参数化设计和快速制造方法设计了一个外壳,并开发了一个刺激单元和一个智能手机应用程序。调查问卷评估了患者和物理治疗师对新系统相对于标准 FES 的易用性的看法。通过让患者佩戴这两个系统,收集类似于饮水运动的运动的运动学数据,并与同龄对照组的数据进行比较。
结果是一个个性化的外壳和一个直观的 FES 系统,克服了标准 FES 的局限性。新系统提示了更好的腕屈控制,平均角度为-18.93°,而其他系统为-59.35°,对照组为-10.97°。
参数化快速制造为个性化 FES 系统提供了有前途的选择,具有家庭使用的潜力。需要进一步的研究,包括随机临床试验。