There are numerous physical, social, and psychological benefits of exercise, sport and play for youth athletes. However, dynamic activities come with a risk of injury that has yet to be abated, warranting novel therapeutics to promote injury-resistance and to keep an active lifestyle throughout the lifespan. The purpose of the present manuscript was to summarize the extant literature and potential connecting framework regarding youth brain development and neuroplasticity associated with musculoskeletal injury. This review provides the foundation for our proposed framework that utilizes the OPTIMAL (Optimizing Performance Through Intrinsic Motivation and Attention for Learning) theory of motor learning to elicit desirable biomechanical adaptations to support injury prevention (injury risk reduction), rehabilitation strategies, and exercise performance for youth physical activity and play across all facets of sport (Prevention Rehabilitation Exercise Play; PREP). We conclude that both young male and females are ripe for OPTIMAL PREP strategies that promote desirable movement mechanics by leveraging a unique time window for which their heightened state of central nervous system plasticity is capable of enhanced adaptation through novel therapeutic interventions.
CITATION STYLE
Diekfuss, J. A., Hogg, J. A., Grooms, D. R., Slutsky-Ganesh, A. B., Singh, H., Bonnette, S., … Myer, G. D. (2020, November 1). Can We Capitalize on Central Nervous System Plasticity in Young Athletes to Inoculate Against Injury? Journal of Science in Sport and Exercise. Springer. https://doi.org/10.1007/s42978-020-00080-3
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