AI Article Synopsis
- Children with Cerebral Palsy (CP) show less selective and simplified muscle activation while walking due to brain injury and associated muscle changes.
- A study using high-density surface electromyography (HDsEMG) compared muscle activity in adolescents with CP and typically developed (TD) adolescents during treadmill walking, revealing more uniform muscle activation in CP individuals.
- Findings indicate that the less structured muscle activation in CP is linked to stronger ankle co-contraction and spasticity, providing insights into motor control deficits and potential improvements from interventions.
Article Abstract
Children with Cerebral Palsy (CP) exhibit less-selective, simplified muscle activation during gait due to injury of the developing brain. Abnormal motor unit recruitment, altered excitation-inhibition balance, and muscle morphological changes all affect the CP electromyogram. High-density surface electromyography (HDsEMG) has potential to reveal novel manifestations of CP neuromuscular pathology and functional deficits by assessing spatiotemporal details of myoelectric activity. We used HDsEMG to investigate spatial-EMG distribution and temporal-EMG complexity of gastrocnemius medialis (GM) muscle during treadmill walking in 11 adolescents with CP and 11 typically developed (TD) adolescents. Our results reveal more-uniform spatial-EMG amplitude distribution across the GM in adolescents with CP, compared to distal emphasis in TD adolescents. More-uniform spatial-EMG was associated with stronger ankle co-contraction and spasticity. CP adolescents exhibited a non-significant trend towards elevated EMG-temporal complexity. Homogenous spatial distribution and disordered temporal evolution of myoelectric activity in CP suggests less-structured and desynchronized recruitment of GM motor units, in combination with muscle morphological changes. Using HDsEMG, we uncovered novel evidence of atypical spatiotemporal activation during gait in CP, opening paths towards deeper understanding of motor control deficits and better characterization of changes in muscular activation from interventions.
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| http://dx.doi.org/10.1016/j.jelekin.2024.102934 | DOI Listing |
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