新型非侵入性脊髓神经调节策略促进运动完全性截瘫后步态恢复。

Novel Noninvasive Spinal Neuromodulation Strategy Facilitates Recovery of Stepping after Motor Complete Paraplegia.

作者信息

Siu Ricardo, Brown Edward H, Mesbah Samineh, Gonnelli Federica, Pisolkar Tanvi, Edgerton V Reggie, Ovechkin Alexander V, Gerasimenko Yury P

机构信息

Kentucky Spinal Cord Injury Research Center, University of Louisville, Louisville, KY 40202, USA.

Department of Neurological Surgery, University of Louisville, Louisville, KY 40202, USA.

出版信息

J Clin Med. 2022 Jun 25;11(13):3670. doi: 10.3390/jcm11133670.

DOI:10.3390/jcm11133670

PMID:35806954

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9267673/

Abstract

It has been suggested that neuroplasticity-promoting neuromodulation can restore sensory-motor pathways after spinal cord injury (SCI), reactivating the dormant locomotor neuronal circuitry. We introduce a neuro-rehabilitative approach that leverages locomotor training with multi-segmental spinal cord transcutaneous electrical stimulation (scTS). We hypothesized that scTS neuromodulates spinal networks, complementing the neuroplastic effects of locomotor training, result in a functional progression toward recovery of locomotion. We conducted a case-study to test this approach on a 27-year-old male classified as AIS A with chronic SCI. The training regimen included task-driven non-weight-bearing training (1 month) followed by weight-bearing training (2 months). Training was paired with multi-level continuous and phase-dependent scTS targeting function-specific motor pools. Results suggest a convergence of cross-lesional networks, improving kinematics during voluntary non-weight-bearing locomotor-like stepping. After weight-bearing training, coordination during stepping improved, suggesting an important role of afferent feedback in further improvement of voluntary control and reorganization of the sensory-motor brain-spinal connectome.

摘要

有人提出，促进神经可塑性的神经调节可以在脊髓损伤（SCI）后恢复感觉运动通路，重新激活休眠的运动神经元回路。我们引入了一种神经康复方法，该方法利用多节段脊髓经皮电刺激（scTS）进行运动训练。我们假设scTS对脊髓网络进行神经调节，补充运动训练的神经可塑性效应，从而在功能上朝着恢复运动的方向发展。我们进行了一项案例研究，以在一名27岁的慢性SCI且分级为AIS A的男性身上测试这种方法。训练方案包括任务驱动的非负重训练（1个月），随后是负重训练（2个月）。训练与针对功能特定运动池的多级连续和相位依赖性scTS相结合。结果表明跨损伤网络出现汇聚，在自愿性非负重运动样踏步过程中改善了运动学。负重训练后，踏步过程中的协调性得到改善，表明传入反馈在进一步改善自愿控制和感觉运动脑脊髓连接组重组中发挥重要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/54d2/9267673/354cdffdb44c/jcm-11-03670-g001.jpg

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新型非侵入性脊髓神经调节策略促进运动完全性截瘫后步态恢复。

Novel Noninvasive Spinal Neuromodulation Strategy Facilitates Recovery of Stepping after Motor Complete Paraplegia.

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