踝足矫形器对脑瘫患儿步态选择性运动控制的影响。
The impact of ankle-foot orthotics on selective motor control during gait in children and adolescents with cerebral palsy.
机构信息
The Helmsley Pediatric and Adolescent Rehabilitation Research Center (PARC) at ALYN Hospital, Jerusalem, Israel; Faculty of Health Sciences, Department of Physical Therapy, The Neuromuscular and Human Performance Laboratory, Ariel University, Ariel, Israel.
Department of Human Movement Sciences, Faculty of Behavioural and Movement Sciences, Vrije Universiteit Amsterdam, Amsterdam, the Netherlands; Institute for Brain and Behavior Amsterdam, Vrije Universiteit Amsterdam, Amsterdam, the Netherlands; Utrecht University, University corporate offices, student & academic affairs, Utrecht, the Netherlands; Amsterdam UMC location, Vrije Universiteit Amsterdam, Department of Rehabilitation Medicine, Amsterdam, the Netherlands.
出版信息
Gait Posture. 2024 Oct;114:48-54. doi: 10.1016/j.gaitpost.2024.08.079. Epub 2024 Aug 24.
BACKGROUND
Children with cerebral palsy (CP) often exhibit altered selective motor control during gait (SMCg). Ankle-foot-orthoses (AFOs) are used in this population to improve gait, by reducing the degrees of freedom at the ankle joint. However, the specific impact of AFOs on SMCg and whether this effect is more related to gait deviations or motor development remains unclear.
RESEARCH QUESTION
Do AFOs impact SMCg, and is the change related to joint kinematics or age?
METHODS
Gait analysis data from 53 children and adolescents with spastic CP, walking both barefoot and with AFOs, were included. Electromyography data from six lower-limb muscles, and lower limb joint kinematics were analyzed for both walking conditions. SMCg was quantified by the total variance in electromyography activity accounted for by one synergy (tVAF), where an increase in tVAF indicates a decrease in SMCg. Kinematic gait deviation was assessed using the Gait-Profile-Score (GPS) and sagittal plane ankle Gait-Variable-Score (ankle-GVS). All analyses were performed for the more clinically involved leg only.
RESULTS
Walking with AFOs resulted in a mean increase in tVAF of 0.02±0.07 (p=0.015) and a median increase in ankle-GVS of 3.4º (p>0.001). No significant changes were observed in GPS, and no correlation was found between the changes in tVAF and ankle-GVS. A significant positive moderate correlation was found between the change in tVAF and age, even with ankle-GVS as a covariate (r=0.45; p>0.001).
SIGNIFICANCE
Walking with an AFO resulted in a small decrease in SMCg, with large inter-participant variability. Younger participants showed a greater decrease in SMCg, which may indicate greater neuromuscular plasticity in early developmental stages.
背景
脑瘫(CP)儿童在步态时常常表现出选择性运动控制(SMCg)改变。踝足矫形器(AFO)用于减少踝关节自由度来改善步态。然而,AFO 对 SMCg 的具体影响以及这种影响与步态偏差还是运动发育更相关仍不清楚。
研究问题
AFO 是否影响 SMCg,变化是否与关节运动学或年龄有关?
方法
纳入 53 名痉挛型 CP 儿童和青少年的步态分析数据,他们分别在赤脚和穿戴 AFO 时进行行走。分析两种行走条件下 6 块下肢肌肉的肌电图数据和下肢关节运动学。通过一个协同作用解释的肌电图活动总方差(tVAF)来量化 SMCg,tVAF 的增加表明 SMCg 减少。使用步态分析评分(GPS)和矢状面踝关节步态变量评分(ankle-GVS)评估运动学步态偏差。所有分析仅针对更具临床意义的腿进行。
结果
穿戴 AFO 行走导致 tVAF 平均增加 0.02±0.07(p=0.015),ankle-GVS 中位数增加 3.4º(p>0.001)。GPS 无显著变化,tVAF 变化与 ankle-GVS 之间无相关性。tVAF 变化与年龄呈显著正中度相关,即使 ankle-GVS 作为协变量(r=0.45;p>0.001)。
意义
穿戴 AFO 行走导致 SMCg 略有减少,个体间差异较大。年龄较小的参与者 SMCg 减少更多,这可能表明在早期发育阶段神经肌肉可塑性更大。
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