4.5 Article

The effect of prolonged walking on muscle fatigue and neuromuscular control in children with cerebral palsy

Journal

GAIT & POSTURE
Volume 93, Issue -, Pages 7-13

Publisher

ELSEVIER IRELAND LTD
DOI: 10.1016/j.gaitpost.2022.01.004

Keywords

Muscle synergies; Electromyography; Rehabilitation; Biomechanics; Clinical gait analysis

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This study investigates the effects of prolonged walking on muscle fatigue and complexity of neuromuscular control in children with cerebral palsy (CP). The results indicate that signs of muscle fatigue are present in children with CP after prolonged walking, while there are no effects on typically developing children. However, both groups show minimal changes in complexity of neuromuscular control associated with muscle fatigue.
Background: Muscle fatigue of the lower limbs is considered a main contributor to the perceived fatigue in children with cerebral palsy (CP) and is expected to occur during prolonged walking. In adults without disabilities, muscle fatigue has been proposed to be associated with adaptations in complexity of neuromuscular control. Research question: What are the effects of prolonged walking on signs of muscle fatigue and complexity of neuromuscular control in children with CP? Methods: Ten children with CP and fifteen typically developing (TD) children performed a standardised protocol on an instrumented treadmill consisting of three stages: six-minutes walking at preferred speed (6 MW), moderate-intensity walking (MIW, with two minutes at heart rate 70% of predicted maximal heart rate) and four-minutes walking at preferred speed (post-MIW). Electromyography (EMG) data were analysed for eight muscles of one leg during three time periods: 6 MW-start, 6 MW-end and post-MIW. Signs of muscle fatigue were quantified as changes in EMG median frequency and EMG root mean square (RMS). Complexity of neuromuscular control was quantified by total variance accounted for by one synergy (tVAF1). Muscle coactivation was assessed for antagonistic muscle pairs. Results: EMG median frequency was decreased at 6 MW-end and post-MIW compared to 6 MW-start in children with CP (p < 0.05), but not in TD children. In both groups, EMG-RMS (p < 0.01) and muscle coactivation (p < 0.01) were decreased at 6 MW-end and post-MIW compared to 6 MW-start. tVAF1 decreased slightly at 6 MW end and post-MIW compared to 6 MW-start in both groups (p < 0.05). Changes were most pronounced from 6 MW-start to 6 MW-end. Significance: Children with CP presented signs of muscle fatigue after prolonged walking, while no effects were found for TD. Both groups showed minimal changes in tVAF1, suggesting signs of muscle fatigue are not associated with changes in complexity of neuromuscular control.

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