A Pilot Study on Fabric-based Pneumatic Soft Gloves for Assisting Patients with Severe Brachial Plexus Injury.

IF 4.4 2区医学 Q2 ENGINEERING, BIOMEDICAL

IEEE Transactions on Biomedical Engineering Pub Date : 2025-04-22 DOI:10.1109/TBME.2025.3563348

Miao Feng, Dezhi Yang, Jianing Sun, Jie Lao, Jing Rui, Guoying Gu

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Abstract

Objective: Robotic gloves show promise in hand assistance due to their wearability and home-based potential, yet empirical research remains limited. This pilot study presents a fabric-based pneumatic soft glove, aiming to identify its potential and challenges in clinical practice by evaluating its effectiveness in assisting patients with severe brachial plexus injury (BPI).

Methods: The glove integrates a thumb abduction actuator and four bidirectional fabric-based pneumatic actuators (FPAs) with asymmetric chambers for high output force. Sixteen healthy volunteers and five individuals with BPI, all of whom lacked active hand and wrist movements, were recruited. Participants performed object grasping across 25 cm. The healthy group performed seven tasks using objects weighing up to 2 kg, with muscle activities recorded for analysis. The BPI group further performed tasks with eight objects from the action research arm test (ARAT) and twelve objects for activities of daily living (ADLs), encompassing various sizes, weights, and geometries.

Results: In the healthy group, sEMG showed a decrease in 89.3% of trials, with 56.0% of these decreases being significant (p$< $0.01). For BPI group, the range of motion (ROM) improved, ranging from $28.5 \pm 7.9^{\circ }$ to $63.1 \pm 5.1^{\circ }$ (thumb) and $10.3 \pm 17.5^{\circ }$ to $122.5 \pm 19.0^{\circ }$ (index finger). With a zero baseline for all tasks, their completion rates were $6.8 \pm 0.8$ out of 8 for ARAT tasks and $10.0 \pm 1.7$ out of 12 for ADLs.

Conclusion: The fabric-based pneumatic soft glove significantly enhanced the hand function of patients with severe BPI, demonstrating its potential for hand assistance.

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纤维基气动软手套辅助臂丛重型损伤患者的初步研究。

目的：机器人手套由于其可穿戴性和基于家庭的潜力，在手部辅助方面显示出前景，但实证研究仍然有限。本初步研究提出了一种基于织物的气动软手套，旨在通过评估其在帮助严重臂丛损伤（BPI）患者中的有效性来确定其在临床实践中的潜力和挑战。方法：该手套集成了一个拇指外展致动器和四个双向纤维气动致动器（fpa），具有非对称腔，以获得高输出力。招募了16名健康志愿者和5名BPI患者，他们都缺乏活跃的手和手腕运动。参与者在25厘米范围内抓取物体。健康组使用重达2公斤的物体完成7项任务，并记录肌肉活动以供分析。BPI组进一步使用来自行动研究臂测试（ARAT）的8个物体和12个日常生活活动（adl）的物体来完成任务，这些物体包括各种大小、重量和几何形状。结果：在健康组中，89.3%的试验显示肌电信号下降，其中56.0%的试验显示显著下降（p$< 0.01）。对于BPI组，运动范围（ROM）得到改善，范围从28.5 \pm 7.9^{\circ}$到63.1 \pm 5.1^{\circ}$（拇指）和10.3 \pm 17.5^{\circ}$到122.5 \pm 19.0^{\circ}$（食指）。在所有任务的基线为零的情况下，他们的完成率为6.8美元/小时0.8美元/ 8个ARAT任务，10.0美元/小时1.7美元/ 12个adl任务。结论：织物基气动软手套可显著增强重度BPI患者的手部功能，显示其辅助手部功能的潜力。

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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来源期刊

IEEE Transactions on Biomedical Engineering 工程技术-工程：生物医学

CiteScore

9.40

自引率

4.30%

发文量

880

审稿时长

2.5 months

期刊介绍： IEEE Transactions on Biomedical Engineering contains basic and applied papers dealing with biomedical engineering. Papers range from engineering development in methods and techniques with biomedical applications to experimental and clinical investigations with engineering contributions.