Non-neural Muscle Weakness Has Limited Influence on Complexity of Motor Control during Gait

摘要

Cerebral palsy (CP) and Duchenne muscular dystrophy (DMD) are neuromuscular disorders characterized by muscle weakness. Weakness in CP has neural and non-neural components, whereas in DMD, weakness can be considered as a predominantly non-neural problem. Despite the different underlying causes, weakness is a constraint for the central nervous system when controlling gait. CP demonstrates decreased complexity of motor control during gait from muscle synergy analysis, which is reflected by a higher total variance accounted for by one synergy (tVAF_(1)). However, it remains unclear if weakness directly contributes to higher tVAF_(1)in CP, or whether altered tVAF_(1)reflects mainly neural impairments. If muscle weakness directly contributes to higher tVAF_(1), then tVAF_(1)should also be increased in DMD. To examine the etiology of increased tVAF_(1), muscle activity data of gluteus medius, rectus femoris, medial hamstrings, medial gastrocnemius, and tibialis anterior were measured at self-selected walking speed, and strength data from knee extensors, knee flexors, dorsiflexors and plantar flexors, were analyzed in 15 children with CP [median (IQR) age: 8.9 (2.2)], 15 boys with DMD [8.7 (3.1)], and 15 typical developing (TD) children [8.6 (2.7)]. We computed tVAF_(1)from 10 concatenated steps with non-negative matrix factorization, and compared tVAF_(1)between the three groups with a Mann-Whiney U -test. Spearman's rank correlation coefficients were used to determine if weakness in specific muscle groups contributed to altered tVAF_(1). No significant differences in tVAF_(1)were found between DMD [tVAF_(1): 0.60 (0.07)] and TD children [0.65 (0.07)], while tVAF_(1)was significantly higher in CP [(0.74 (0.09)] than in the other groups (both p < 0.005). In CP, weakness in the plantar flexors was related to higher tVAF_(1)( r = ?0.72). In DMD, knee extensor weakness related to increased tVAF_(1)( r = ?0.50). These results suggest that the non-neural weakness in DMD had limited influence on complexity of motor control during gait and that the higher tVAF_(1)in children with CP is mainly related to neural impairments caused by the brain lesion.