Effects of velocity loss during resistance training on athletic performance, strength gains and muscle adaptations
Fernando Pareja-Blanco,David Rodríguez-Rosell,Luis Sánchez-Medina,Joaquin Sanchis-Moysi,Cecilia Dorado,Ricardo Mora-Custodio,Juan Manuel Yáñez-García,David Morales-Alamo,Ismael Perez-Suarez,Jose A. L. Calbet,Juan José González-Badillo +10 more
TLDR
The progressive accumulation of muscle fatigue as indicated by a more pronounced repetition velocity loss appears as an important variable in the configuration of the resistance exercise stimulus as it influences functional and structural neuromuscular adaptations.Abstract:
We compared the effects of two resistance training (RT) programs only differing in the repetition velocity loss allowed in each set: 20% (VL20) vs 40% (VL40) on muscle structural and functional adaptations. Twenty-two young males were randomly assigned to a VL20 (n = 12) or VL40 (n = 10) group. Subjects followed an 8-week velocity-based RT program using the squat exercise while monitoring repetition velocity. Pre- and post-training assessments included: magnetic resonance imaging, vastus lateralis biopsies for muscle cross-sectional area (CSA) and fiber type analyses, one-repetition maximum strength and full load-velocity squat profile, countermovement jump (CMJ), and 20-m sprint running. VL20 resulted in similar squat strength gains than VL40 and greater improvements in CMJ (9.5% vs 3.5%, P < 0.05), despite VL20 performing 40% fewer repetitions. Although both groups increased mean fiber CSA and whole quadriceps muscle volume, VL40 training elicited a greater hypertrophy of vastus lateralis and intermedius than VL20. Training resulted in a reduction of myosin heavy chain IIX percentage in VL40, whereas it was preserved in VL20. In conclusion, the progressive accumulation of muscle fatigue as indicated by a more pronounced repetition velocity loss appears as an important variable in the configuration of the resistance exercise stimulus as it influences functional and structural neuromuscular adaptations.read more
Citations
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Journal ArticleDOI
Estimation of Relative Load From Bar Velocity in the Full Back Squat Exercise.
Luis Sánchez-Medina,Jesús G. Pallarés,Carlos E. Pérez,Ricardo Morán-Navarro,Juan José González-Badillo +4 more
TL;DR: Provided that repetitions are performed at maximal intended velocity, a good estimation of load can be obtained from mean velocity as soon as the first repetition is completed and allows implementing a velocity-based resistance training approach.
Journal ArticleDOI
Reliability and Concurrent Validity of Seven Commercially Available Devices for the Assessment of Movement Velocity at Different Intensities During the Bench Press.
Alejandro Pérez-Castilla,Antonio Piepoli,Gabriel Delgado-García,Gabriel Garrido-Blanca,Amador García-Ramos,Amador García-Ramos +5 more
TL;DR: It is suggested that linear velocity/position transducers, camera-based optoelectronic systems, and the smartphone application could be used to obtain accurate velocity measurements for restricted linear movements, whereas the IMUs used in this study were less reliable and valid.
Journal ArticleDOI
Time course of recovery following resistance training leading or not to failure.
Ricardo Morán-Navarro,Ricardo Morán-Navarro,Carlos E. Pérez,Ricardo Mora-Rodriguez,Ernesto De la Cruz-Sánchez,Juan José González-Badillo,Luis Sánchez-Medina,Jesús G. Pallarés,Jesús G. Pallarés +8 more
TL;DR: Markers of acute (ammonia, growth hormone) and delayed (creatine kinase) fatigue showed a markedly different course of recovery between protocols, suggesting that training to failure slows down recovery up to 24–48 h post-exercise.
Journal ArticleDOI
Velocity Loss as a Variable for Monitoring Resistance Exercise.
Juan José González-Badillo,Juan Manuel Yáñez-García,Ricardo Mora-Custodio,David Rodríguez-Rosell +3 more
TL;DR: Monitoring repetition velocity and using equations to predict the percentage of performed repetitions from relative velocity loss can estimate, with considerable precision, how many repetitions are left in reserve in a bench press exercise set.
Journal ArticleDOI
Reproducibility and Repeatability of Five Different Technologies for Bar Velocity Measurement in Resistance Training.
Javier Courel-Ibáñez,Alejandro Martínez-Cava,Ricardo Morán-Navarro,Pablo Escribano-Peñas,Javier Chavarren-Cabrero,Juan José González-Badillo,Jesús G. Pallarés +6 more
TL;DR: This study aimed to analyze the agreement between five bar velocity monitoring devices, currently used in resistance training, to determine the most reliable device based on reproducibility (between-device agreement for a given trial) and repeatability ( between-trial variation for each device)
References
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