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Assessment of the loaded squat jump and countermovement jump exercises with a linear velocity transducer: which velocity variable provides the highest reliability?
Pérez Castilla, Alejandro
Jiménez Reyes, Pedro
Gregory Haff, Guy
García-Ramos, Amador
Routledge
2021
This study aimed to compare the between-session reliability of three typically measured velocity variables (mean velocity [MV], mean propulsive velocity [MPV], and maximum velocity [Vmax]) to assess vertical jump performance. Totally, 23 men had their squat jump (SJ) and countermovement jump (CMJ) tested against five different loading conditions (17, 30, 45, 60 and 75 kg) during two consecutive weeks. The two sessions of each jump type were performed within the same week separated by 48–72 h. The main finding was a significant difference in reliability between the variables, which were ranked from the highest to the lowest reliable as follows (median coefficient of variation [CV] and range): Vmax (CV = 2.35% [1.85%–3.23%]) >MV (CV = 3.29% [2.18%–4.40%]) >MPV (CV = 3.69% [2.08%–5.17%]). A significant variable × exercise interaction was also observed showing that the differences in reliability between the variables were meaningful during the SJ (MV: CV = 3.93% [3.06%–4.40%], MPV: CV = 4.61% [4.07%–5.17%], and Vmax: CV = 2.14% [1.85%–2.71%]), while no significant differences were observed for the CMJ (MV: CV = 2.43% [2.18%–3.70%], MPV: CV = 2.71% [2.08%–3.63%], and Vmax: CV = 2.40% [1.97%–3.23%]). These results suggest that the Vmax should be the recommended variable for obtaining a reproducible measure of lower-body ballistic performance, especially during the SJ exercise.
Vertical jump
Mean velocity
Mean propulsive
Velocity
Maximum velocity
Linear position transducer
Ciencias de la salud
Ingeniería médica