Developmental Reorganization of Whole-Body Muscle Synergies During Overarm Throwing in Children

Overarm throwing is a uniquely human skill that requires precise whole-body coordination. Although throwing behavior emerges early in childhood, the neuromuscular mechanisms that support its development remain poorly characterized. Here, we provide novel evidence for the developmental reorganization of whole-body muscle synergies during maximum-effort throwing in preschool-aged (PS) and school-aged (SA) children. Electromyography was recorded from 16 muscles, and non-negative matrix factorization was applied to extract low-dimensional coordination modules (muscle synergies). We compared ball speed, number of synergies, synergy structure, and temporal consistency between groups. Ball speed was significantly higher in SA than PS (33.6 {+/-} 10.2 vs. 21.4 {+/-} 6.2 km/h, p 0.05), suggesting that the dimensionality of coordination is largely established by the preschool years. Instead, developmental improvements were driven by structural and temporal reorganization: trunk- and upper-limb synergies merged into a single module in SA, reflecting improved postural integration, while a bilateral soleus-dominant synergy fractionated into lateralized modules, reflecting increased lower-limb specialization. Moreover, the temporal variability of synergy activation was reduced in SA (p