Effects of cumulative school soccer matches separated by 24-h or 48-h interval on physical recovery status of U-19 players

Authors

DOI:

https://doi.org/10.1590/1980-0037.2021v23e78044

Keywords:

Eletromiografia, Contração Muscular, Força Muscular, Joelho, Quadril.

Abstract

This study aimed to evaluate the effects of cumulative school soccer matches separated by 24-h or 48-h intervals on recovery status of U-19 players. Thirty-four school athletes (17.6 ± 1.1 years) who played an U-19 school soccer competition (composed of one group with four teams and another group with three teams, followed by semifinals and final) were examined before three matches, which lasted 70 min. Seventeen athletes had 24-h of rest interval between each match (GGG group), while 18 athletes had an interval of 48-h between the second and third matches (GG48hG group). Total Quality Recovery, countermovement jump, 10-m sprint, and maximum lumbar isometric strength were measured. The internal load of each match was calculated by the product of the session Rating of Perceived Exertion and match time. There was a 22% reduction in Total Quality Recovery (p< 0.001) and 12% in 10-m sprint performance (p< 0.001) before the third match in the GGG group, while the GG48hG group did not show changes for the same variables (p> 0.05). The countermovement jump decreased before the second match in both groups (GGG= 12% and GG48hG= 10%; p< 0.001), with no difference between groups (p> 0.05). In addition, both groups did not show changes in the isometric strength and in the internal load match over the games (p> 0.05). Despite not providing a complete muscle recovery, 48-h interval between the second and third matches seems to have minimized the effect of consecutive matches in muscle performance reduction.

References

Stølen T, Chamari K, Castagna C, Wisløff U. Physiology of soccer: An update. Sport Med 2005;35(6):501-536.

Coelho DB, Coelho LG, Mortimer LÁF, Hudson ASR, Marins JCB, Soares DD, et al. Energy demand and heart rate evaluation at different phases during a match along an official soccer competition. Rev Bras Cineantropometria e Desempenho Hum 2012;14(4):419-427.

Paulsen G, Mikkelsen UR, Raastad T, Peake JM. Leucocytes, cytokines and satellite cells: What role do they play in muscle damage and regeneration following eccentric exercise? Exerc Immunol Ver 2012;18:42-97.

Ferreira-Junior JB, Bottaro M, Loenneke JP, Vieira A, Vieira CA, Bemben MG. Could whole-body cryotherapy (below -100°C) improve muscle recovery from muscle damage? Front Physiol 2014;5(247):1-4.

Silva JR, Rumpf MC, Hertzog M, Castagna C, Farooq A, Girard O, et al. Acute and Residual Soccer Match-Related Fatigue: A Systematic Review and Meta-analysis. Sport Med 2018;48(3):539-583.

Andrade DM, Fernandes G, Miranda R, Reis Coimbra D, Bara Filho MG. Training Load and Recovery in Volleyball During a Competitive Season. J Strength Cond Res 2018;1:1-7.

Debien PB, Mancini M, Coimbra DR, De Freitas DGS, Miranda R, Bara Filho MG. Monitoring training load, recovery, and performance of brazilian professional volleyball players during a season. Int J Sports Physiol Perform 2018;13(9):1182-1189.

Kellmann M, Bertollo M, Bosquet L, Brink M, Coutts AJ, Duffield R, et al. Recovery and performance in sport: Consensus statement. Int J Sports Physiol Perform 2018;13(2):240-245.

Johnston RD, Gibson N V., Twist C, Gabbett TJ, MacNay SA, MacFarlane NG. Physiological responses to an intensified period of rugby league competition. J Strength Cond Res 2013;27(3):643-654.

Freitas VH, Souza EA, Oliveira RS, Pereira LA, Nakamura FY. Efeito de quatro dias consecutivos de jogos sobre a potência muscular, estresse e recuperação percebida, em jogadores de futsal. Rev Bras Educ Física e Esporte 2014;28(1):23-30.

Chaves SFN, Cerqueira MS, Tucher G, Miloski B, Coelho DB, Borba DA, et al. Effect of a school soccer competition with consecutive day games on the recovery status of U-19 players. Rev Bras Cineantropometria e Desempenho Hum 2018;20(5):402-411.

Rowsell GJ, Coutts AJ, Reaburn P, Hill-Haas S. Effect of post-match cold-water immersion on subsequent match running performance in junior soccer players during tournament play. J Sports Sci 2011;29(1):1-6.

Vieth V, Schulz R, Brinkmeier P. Age estimation in U-20 football players using 3.0 tesla MRI of the clavicle. Forensic Sci Int 2014;241:118-122.

Beck TW. The importance of a priori sample size estimation in strength and conditioning research. J Strength Cond Res 2013;27(8):2323-2337.

Moran DS, Shapiro Y, Epstein Y, Matthew W, Pandolf KB. A modified discomfort index (MDI) as an alternative to the wet bulb globe temperature (WBGT). Environ Ergon VIII, Hodgdon JA, Heaney JH, Buono MJ. 1998;77–80.

Kenttä G, Hassmén P. Overtraining and recovery. A conceptual model. Sport Med 1998;26(1):1-16.

Vieira A, Siqueira AF, Ferreira-Junior JB, Do Carmo J, Durigan JLQ, Blazevich A, et al. The Effect of Water Temperature during Cold-Water Immersion on Recovery from Exercise-Induced Muscle Damage. Int J Sports Med 2016;37(12):937-943.

Eichinger FLF, Soares AV, Carvalho Júnior JM de, Gevaerd M da S, Domenech SC, Borges Júnior NG. Dinamometria lombar: um teste funcional para o tronco TT - Lumbar dynamometry: a functional test for the torso. Rev bras med trab 2016;14(2):120-126.

Foster C, Florhaug JA, Franklin J, Gottschall L, Hrovatin LA, Parker S, et al. A New Approach to Monitoring Exercise Training. J Strength Cond Res 2001;15(1):109-115.

Christen J, Foster C, Porcari JP, Mikat RP. Temporal robustness of the session rating of perceived exertion. Int J Sports Physiol Perform 2016;11(8):1088-1093.

Vacha-Haase T, Thompson B. How to estimate and interpret various effect sizes. J Couns Psychol 2004;51(4):473-481.

Bangsbo J, Mohr M, Krustrup P. Physical and metabolic demands of training and match-play in the elite football player. J Sports Sci 2006;24(7):665-674.

Ispirlidis I, Fatouros IG, Jamurtas AZ, Nikolaidis MG, Michailidis I, Douroudos I, et al. Time-course of changes in inflammatory and performance responses following a soccer game. Clin J Sport Med 2008;18(5):423-431.

Romagnoli M, Sanchis-Gomar F, Alis R, Risso-Ballester J, Bosio A, Graziani RL, et al. Changes in muscle damage, inflammation, and fatigue-related parameters in young elite soccer players after a match. J Sports Med Phys Fitness 2016;56(10):1198-1205.

Silva JR, Ascensão A, Marques F, Seabra A, Rebelo A, Magalhães J. Neuromuscular function, hormonal and redox status and muscle damage of professional soccer players after a high-level competitive match. Eur J Appl Physiol 2013;113(9):2193-2201.

Rampinini E, Bosio A, Ferraresi I, Petruolo A, Morelli A, Sassi A. Match-related fatigue in soccer players. Med Sci Sports Exerc 2011;43(11):2161-2170.

Nedelec M, McCall A, Carling C, Legall F, Berthoin S, Dupont G. The influence of soccer playing actions on the recovery kinetics after a soccer match. J Strength Cond Res 2014;28(6):1517-1523.

Andersson H, Raastad T, Nilsson J, Paulsen G, Garthe I, Kadi F. Neuromuscular fatigue and recovery in elite female soccer: Effects of active recovery. Med Sci Sports Exerc 2008;40(2):372-380.

Krustrup P, Ortenblad N, Nielsen J, Nybo L, Gunnarsson TP, Marcello Iaia F, et al. Maximal voluntary contraction force, SR function and glycogen resynthesis during the Wrst 72 h after a high-level competitive soccer game. Eur J Appl Physiol 2011;111(12):2987-2995.

Saw AE, Main LC, Gastin PB. Monitoring the athlete training response: Subjective self-reported measures trump commonly used objective measures: A systematic review. Br J Sports Med 2016;50(5):281-291.

Downloads

Published

2021-12-09

Issue

Vol. 23 (2021)

Section

Original Articles

License

Licença Creative Commons

This work is licensed under a Creative Commons Attribution 4.0 International License.