SCI 后轮椅推进过程中神经刺激的自动应用增强了从不稳定事件中直立坐姿的恢复。

Automatic application of neural stimulation during wheelchair propulsion after SCI enhances recovery of upright sitting from destabilizing events.

机构信息

Department of Biomedical Engineering, Case Western Reserve University, Cleveland, OH, USA.

Advanced Platform Technology Center, Cleveland Louis Stokes Veterans Affairs Medical Center, 10701 East Boulevard, Cleveland, OH, 44106, USA.

出版信息

J Neuroeng Rehabil. 2018 Mar 12;15(1):17. doi: 10.1186/s12984-018-0362-2.

DOI:10.1186/s12984-018-0362-2

PMID:29530053

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5848592/

Abstract

BACKGROUND

The leading cause of injury for manual wheelchair users are tips and falls caused by unexpected destabilizing events encountered during everyday activities. The purpose of this study was to determine the feasibility of automatically restoring seated stability to manual wheelchair users with spinal cord injury (SCI) via a threshold-based system to activate the hip and trunk muscles with electrical stimulation during potentially destabilizing events.

METHODS

We detected and classified potentially destabilizing sudden stops and turns with a wheelchair-mounted wireless inertial measurement unit (IMU), and then applied neural stimulation to activate the appropriate muscles to resist trunk movement and restore seated stability. After modeling and preliminary testing to determine the appropriate inertial signatures to discriminate between events and reliably trigger stimulation, the system was implemented and evaluated in real-time on manual wheelchair users with SCI. Three participants completed simulated collision events and four participants completed simulated rapid turns. Data were analyzed as a series of individual case studies with subjects acting as their own controls with and without the system active.

RESULTS

The controller achieved 93% accuracy in detecting collisions and right turns, and 100% accuracy in left turn detection. Two of the three subjects who participated in collision testing with stimulation experienced significantly decreased maximum anterior-posterior trunk angles (p < 0.05). Similar results were obtained with implanted and surface stimulation systems.

CONCLUSIONS

This study demonstrates the feasibility of a neural stimulation control system based on simple inertial measurements to improve trunk stability and overall safety of people with spinal cord injuries during manual wheelchair propulsion. Further studies are required to determine clinical utility in real world situations and generalizability to the broader SCI or other population of manual or powered wheelchair users.

TRIAL REGISTRATION

ClinicalTrials.gov Identifier NCT01474148 . Registered 11/08/2011 retrospectively registered.

摘要

背景

手动轮椅使用者受伤的主要原因是在日常活动中遇到意外失稳事件而导致的倾翻和摔倒。本研究的目的是通过基于阈值的系统来确定通过电刺激激活臀部和躯干肌肉来自动恢复脊髓损伤（SCI）患者的坐姿稳定性的可行性，以便在潜在失稳事件中使用。

方法

我们使用安装在轮椅上的无线惯性测量单元（IMU）检测和分类潜在的不稳定的突然停止和转弯，并应用神经刺激来激活适当的肌肉以抵抗躯干运动并恢复坐姿稳定性。在对适当的惯性特征进行建模和初步测试以区分事件并可靠地触发刺激之后，该系统在 SCI 手动轮椅使用者中实时实施和评估。三名参与者完成了模拟碰撞事件，四名参与者完成了模拟快速转弯。数据分析采用个体病例系列分析，每位参与者既是自己的对照，在系统开启和关闭两种情况下进行分析。

结果

该控制器在检测碰撞和右转方面的准确率为 93%，在检测左转方面的准确率为 100%。在接受碰撞测试并接受刺激的三名参与者中，有两名参与者的躯干前后最大角度显著减小（p < 0.05）。植入式和表面刺激系统均获得了类似的结果。

结论

本研究证明了基于简单惯性测量的神经刺激控制系统提高脊髓损伤患者在手动轮椅推动过程中躯干稳定性和整体安全性的可行性。需要进一步的研究来确定在现实情况下的临床实用性和对更广泛的 SCI 或其他手动或动力轮椅使用者群体的推广性。

试验注册

ClinicalTrials.gov 标识符 NCT01474148。于 2011 年 11 月 8 日回顾性注册。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0b11/5848592/ac993e8f4524/12984_2018_362_Fig1_HTML.jpg

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SCI 后轮椅推进过程中神经刺激的自动应用增强了从不稳定事件中直立坐姿的恢复。

Automatic application of neural stimulation during wheelchair propulsion after SCI enhances recovery of upright sitting from destabilizing events.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

TRIAL REGISTRATION

背景

方法

结果

结论

试验注册

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