Barroso Filipe O, Torricelli Diego, Bravo-Esteban Elisabeth, Taylor Julian, Gómez-Soriano Julio, Santos Cristina, Moreno Juan C, Pons José L
Electronics Department, University of MinhoGuimarães, Portugal; Neural Rehabilitation Group, Cajal Institute, Spanish National Research CouncilMadrid, Spain.
Neural Rehabilitation Group, Cajal Institute, Spanish National Research Council Madrid, Spain.
Front Hum Neurosci. 2016 Jan 11;9:706. doi: 10.3389/fnhum.2015.00706. eCollection 2015.
After incomplete spinal cord injury (iSCI), patients suffer important sensorimotor impairments, such as abnormal locomotion patterns and spasticity. Complementary to current clinical diagnostic procedures, the analysis of muscle synergies has emerged as a promising tool to study muscle coordination, which plays a major role in the control of multi-limb functional movements.
Based on recent findings suggesting that walking and cycling share similar synergistic control, the analysis of muscle synergies during cycling might be explored as an early descriptor of gait-related impaired control. This idea was split into the following two hypotheses: (a) iSCI patients present a synergistic control of muscles during cycling; (b) muscle synergies outcomes extracted during cycling correlate with clinical measurements of gait performance and/or spasticity.
Electromyographic (EMG) activity of 13 unilateral lower limb muscles was recorded in a group of 10 healthy individuals and 10 iSCI subjects during cycling at four different cadences. A non-negative matrix factorization (NNMF) algorithm was applied to identify synergistic components (i.e., activation coefficients and muscle synergy vectors). Reconstruction goodness scores (VAF and r (2)) were used to evaluate the ability of a given number of synergies to reconstruct the EMG signals. A set of metrics based on the similarity between pathologic and healthy synergies were correlated with clinical scales of gait performance and spasticity.
iSCI patients preserved a synergistic control of muscles during cycling. The similarity with the healthy reference was consistent with the degree of the impairment, i.e., less impaired patients showed higher similarities with the healthy reference. There was a strong correlation between reconstruction goodness scores at 42 rpm and motor performance scales (TUG, 10-m test and WISCI II). On the other hand, the similarity between the healthy and affected synergies presented correlation with some spasticity symptoms measured by Penn, Modified Ashworth and SCATS scales.
Overall, the results of this study support the hypothesis that the analysis of muscle synergies during cycling can provide detailed quantitative assessment of functional motor impairments and symptoms of spasticity caused by abnormal spatiotemporal muscle co-activation following iSCI.
脊髓不完全损伤(iSCI)后,患者会出现重要的感觉运动障碍,如异常的运动模式和痉挛。作为当前临床诊断程序的补充,肌肉协同作用分析已成为研究肌肉协调性的一种有前景的工具,而肌肉协调性在多肢体功能运动控制中起主要作用。
基于最近的研究结果表明步行和骑自行车具有相似的协同控制,可探索分析骑自行车时的肌肉协同作用,作为步态相关控制受损的早期描述指标。这一想法分为以下两个假设:(a)iSCI患者在骑自行车时存在肌肉协同控制;(b)骑自行车时提取的肌肉协同作用结果与步态表现和/或痉挛的临床测量相关。
在10名健康个体和10名iSCI受试者以四种不同的踏频骑自行车时,记录13条单侧下肢肌肉的肌电图(EMG)活动。应用非负矩阵分解(NNMF)算法识别协同成分(即激活系数和肌肉协同向量)。重建优度分数(VAF和r(2))用于评估给定数量的协同作用重建EMG信号的能力。一组基于病理和健康协同作用之间相似性的指标与步态表现和痉挛的临床量表相关。
iSCI患者在骑自行车时保持了肌肉协同控制。与健康参照的相似性与损伤程度一致,即损伤较轻的患者与健康参照的相似性更高。42转/分钟时的重建优度分数与运动表现量表(TUG、10米测试和WISCI II)之间存在强相关性。另一方面,健康和受影响的协同作用之间的相似性与用佩恩、改良Ashworth和SCATS量表测量的一些痉挛症状相关。
总体而言,本研究结果支持以下假设:分析骑自行车时的肌肉协同作用可以对iSCI后异常时空肌肉共同激活引起的功能性运动障碍和痉挛症状进行详细的定量评估。