Interrelationship between different loads in resisted sprints, half-squat 1RM, and kinematic variables in trained athletes
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Martínez Valencia, M. A.; González Ravé, José María; Santos García, D. J.; Alcaraz Ramón, Pedro Emilio; Navarro Valdivielso, FernandoFecha
2011-12-12Disciplina/s
Actividad Física y DeporteMateria/s
Sled towingSprinting kinematics
Velocity
Resumen
Resisted sprint running is a common training method for improving sprint-specific strength. It is well-known that an athlete's time to complete a sled-towing sprint increases linearly with increasing sled load. However, to our knowledge, the relationship between the maximum load in sled-towing sprint and the sprint time is unknown, The main purpose of this research was to analyze the relationship between the maximum load in sled-towing sprint, half-squat maximal dynamic strength and the velocity in the acceleration phase in 20-m sprint. A second aim was to compare sprint performance when athletes ran under different conditions: un-resisted and towing sleds. Twenty-one participants (17.86±2.27 years; 1.77±0.06 m and 69.24±7.20 kg) completed a one repetition maximum test (1 RM) from a half-squat position (159.68±22.61 kg) and a series of sled-towing sprints with loads of 0, 5, 10, 15, 20, 25, 30% body mass (Bm) and the maximum resisted sprint load. No significant correlation (P<0.05) was...