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Interaction of Kinematic, Kinetic, and Energetic Predictors of Young Swimmers’ Speed

Jorge E. Morais, Tiago M. Barbosa, José A. Bragada, Rodrigo Ramírez‐Campillo, Daniel A. Marinho

2023International Journal of Sports Physiology and Performance16 citationsDOIOpen Access PDF

Abstract

PURPOSE: The aim of this study was to assess the interaction of kinematic, kinetic, and energetic variables as speed predictors in adolescent swimmers in the front-crawl stroke. DESIGN: Ten boys (mean age [SD] = 16.4 [0.7] y) and 13 girls (mean age [SD] = 14.9 [0.9] y) were assessed. METHODS: The swimming performance indicator was a 25-m sprint. A set of kinematic, kinetic (hydrodynamic and propulsion), and energetic variables was established as a key predictor of swimming performance. Multilevel software was used to model the maximum swimming speed. RESULTS: The final model identified time (estimate = -0.008, P = .044), stroke frequency (estimate = 0.718, P < .001), active drag coefficient (estimate = -0.330, P = .004), lactate concentration (estimate = 0.019, P < .001), and critical speed (estimate = -0.150, P = .035) as significant predictors. Therefore, the interaction of kinematic, hydrodynamic, and energetic variables seems to be the main predictor of speed in adolescent swimmers. CONCLUSIONS: Coaches and practitioners should be aware that improvements in isolated variables may not translate into faster swimming speed. A multilevel evaluation may be required for a more effective assessment of the prediction of swimming speed based on several key variables rather than a single analysis.

Topics & Concepts

SprintFront crawlKinematicsStroke (engine)StatisticsMathematicsSimulationPhysical medicine and rehabilitationComputer sciencePhysical therapyPhysicsMedicineThermodynamicsClassical mechanicsSports Performance and TrainingCardiovascular and exercise physiologySports injuries and prevention