Initial feasibility evaluation of the RISES system: An innovative and activity-based closed-loop framework for spinal cord injury rehabilitation and recovery.

IF 2 Q3 ENGINEERING, BIOMEDICAL Journal of Rehabilitation and Assistive Technologies Engineering Pub Date : 2024-10-08 eCollection Date: 2024-01-01 DOI:10.1177/20556683241280242
Shirin Madarshahian, Tatiana Guerrero, Phyo Thuta Aung, Kristin Gustafson, James S Harrop, Dana R Johnson, Mehdi Khantan, Yunsoo Lee, Caio Matias, Michael McCurdy, Namrata Grampurohit, MaryJane Mulcahey, Alessandro Napoli, Alexander Vaccaro, Mijail Serruya
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Abstract

Background: Electrical stimulation of the spinal cord may improve rewiring of the affected pathways. Immediate modulation of stimulation parameters, and its effects of it on kinematics and electromyographic variables is unclear.

Methods: This study piloted the safety and feasibility of the Reynolds Innovative Spinal Electrical Stimulation (RISES) technology with a focus on its novel closed-loop setting. This personalized, task-specific non-invasive stimulation system enables real-time stimulation parameter modulation and supports multi-data acquisition and storage. Four SCI participants underwent a clinical trial coupled with activity-based training. Primary safety outcome measures included adverse events (AEs) and skin integrity; secondary measures were vital signs, pain, and fatigue assessed at the pre, mid, and post-stimulation sessions. The trial included open-loop and closed-loop blocks of transcutaneous spinal cord stimulation (tSCS).

Results: Results showed no serious adverse events, with skin integrity unaffected. Vital signs and pain showed no significant differences across session timepoints. Fatigue levels differed significantly with post-session > mid-session > pre-session. Comparisons between open-loop and closed-loop blocks showed no significant differences in setup time, vital signs, pain, or fatigue. Average stimulation duration per task was significantly longer for open-loop (467.6 sec) than Closed-loop (410.8 sec).

Conclusions: RISES, demonstrated safety and feasibility. Further work will focus on clinical efficacy.

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RISES 系统的初步可行性评估:脊髓损伤康复和恢复的创新活动闭环框架。
背景:脊髓电刺激可改善受影响通路的重新布线。刺激参数的即时调节及其对运动学和肌电图变量的影响尚不清楚:本研究对雷诺创新脊髓电刺激(RISES)技术的安全性和可行性进行了试验,重点是其新颖的闭环设置。这种个性化、针对特定任务的无创刺激系统可实现实时刺激参数调节,并支持多数据采集和存储。四名 SCI 参与者接受了临床试验和基于活动的训练。主要安全结果指标包括不良事件(AEs)和皮肤完整性;次要指标包括刺激前、中、后阶段的生命体征、疼痛和疲劳评估。试验包括经皮脊髓刺激(tSCS)的开环和闭环区块:结果:试验结果显示未出现严重不良事件,皮肤完整性未受影响。各疗程时间点的生命体征和疼痛无明显差异。疲劳程度差异明显,疗程后>疗程中>疗程前。开环区块和闭环区块之间的比较显示,在设置时间、生命体征、疼痛或疲劳方面没有明显差异。每项任务的平均刺激时间,开环(467.6 秒)明显长于闭环(410.8 秒):结论:RISES 证明了其安全性和可行性。结论:RISES 证明了其安全性和可行性,进一步的工作将侧重于临床疗效。
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