The stretch-shortening cycle efficiency is dependent on the maturational stage
Resumen
Maturation interferes with physiological and mechanical aspects of muscle contraction. The aim of the present study was to compare the efficiency of the stretch-shortening cycle (SSC) between different maturation stages. One hundred forty six young people, with 72 boys and 74 girls, were recruited to participate in the study. Sexual maturation was measured and the group was stratified into adolescents (> 3 auto-tanner) and children (<2 auto-tanner). Squat jump (SJ) and countermovement jump (CMJ) performance were measured to measure reactive force (RF) capacity, eccentric utilization ratio (EUR) and pre-stretch augmentation (PSAP). The children did not present statistical difference between SJ and CMJ (t(55)= -1.93; ? = -0.61; 95% CI = -1.24 to -0.02; p = 0.058), while the adolescents presented higher performance of CMJ (t(89)= -12.28; ? = -2.44; 95% CI = -2.84 to -2.05; p <0.001). In addition, adolescents had higher RF performance (t(144)= 5.18; p <0.0001; 95% CI = 2.53 to 1.13), PSAP (t(144)= 4.38; p <0.0001; 95% CI = 14.00 to 5.29) and EUR (t(144)= 4.38; p <0.0001; 95% CI = 0.14 to 0.05). We conclude that more mature young people have better SSC utilization.
Citas
Markovic G, Dizdar D, Jukic I, Cardinale M. Reliability and factorial validity of squat and countermovement jump tests. J Strength Cond Res 2004;18(3):551–555.
Pagaduan J, Schoenfeld BJ, Pojskic H. Systematic Review and Meta-Analysis on the Effect of Contrast Training on Vertical Jump Performance. Strength Cond J 2019;41(3):63–78.
Ryman SA, Arvidsson J, Haglund E. Jump height as performance indicator for the selection of youth football players to national teams. J Sports Med Phys Fitness 2019.
Gathercole R, Sporer B, Stellingwerff T, Sleivert G. Alternative countermovement-jump analysis to quantify acute neuromuscular fatigue. Int J Sports Physiol Perform 2015;10(1):84–92.
Lloyd RS, Oliver JL, Hughes MG, Williams CA. Reliability and validity of field-based measures of leg stiffness and reactive strength index in youths. J Sports Sci 2009;27(14):1565–1573.
Bosco C, Viitasalo J, Komi P, Luhtanen P. Combined effect of elastic energy and myoelectrical potentiation during stretch-shortening cycle exercise. Acta Physiol Scand 1982;114(4):557–565.
Henchoz Y, Malatesta D, Gremion G, Belli A. Effects of the transition time between muscle-tendon stretch and shortening on mechanical efficiency. Eur J Appl Physiol 2006;96(6):665–671.
Walshe AD, Wilson GJ, Murphy AJ. The validity and reliability of a test of lower body musculotendinous stiffness. Eur J Appl Physiol 1996;73(3):332.
Young WB. Laboratory strength assessment of athletes. New Stud Athl 1995;10(1):89-96.
Suchomel TJ, Sole CJ, Stone MH. Comparison of Methods That Assess Lower-body Stretch-Shortening Cycle Utilization. J Strength Cond Res 2016;30(2): 547-554.
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