Performance of Maximum Number of Repetitions With Cluster-Set Configuration
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Performance of Maximum Number of Repetitions With Cluster-Set ConfigurationAutor(es)
Fecha
2014Cita bibliográfica
Iglesias-Soler, E., Carballeira, E., Sánchez-Otero, T., Mayo, X., & Fernández-del-Olmo, M. (2014). Performance of Maximum Number of Repetitions With Cluster-Set Configuration. International Journal of Sports Physiology and Performance, 9(4), 637-642. Retrieved May 16, 2024, from https://doi.org/10.1123/ijspp.2013-0246
Resumen
[Abstract]: Purpose: To analyze performance during the execution of a maximum number of repetitions (MNR) in a cluster-set configuration. Method: Nine judokas performed 2 sessions of parallel squats with a load corresponding to 4-repetition maximum (4RM) with a traditional-training (TT) and cluster-training (CT) set configuration. The TT consisted of 3 sets of repetitions leading to failure and 3 min of rest between sets. In the CT the MNR was performed with a rest interval between repetitions (45.44 ± 11.89 s). The work-to-rest ratio was similar for CT and TT. Results: MNR in CT was 45.5 ± 32 repetitions and was 9.33 ± 1.87 times the volume in TT. There was a tendency for the average mean propulsive velocity (MPV) to be higher in CT (0.39 ± 0.04 vs 0.36 ± 0.04 m/s for CT and TT, respectively, P = .054, standardized mean difference [d] = 0.57). The average MPV was higher in CT for a similar number of repetitions (0.44 ± 0.08 vs 0.36 ± 0.04 m/s for CT and TT, respectively, P = .006, d = 1.33). The number of repetitions in TT was correlated with absolute 4RM load (r = –.719, P = .031) but not in CT (r = –.273, P = .477). Conclusions: A cluster-set configuration allows for a higher number of repetitions and improved sustainability of mechanical performance. CT, unlike TT, was not affected by absolute load, suggesting an improvement of training volume with high absolute loads
Palabras clave
Resistance training
Interrepetition rest
Muscle endurance
Work-to-rest ratio
Mechanical performance
Interrepetition rest
Muscle endurance
Work-to-rest ratio
Mechanical performance
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Derechos
© 2014 Human Kinetics, Inc.
ISSN
1555-0265