1Universe College, Department of Physical Culture, Sport and Recreation, Prishtina, Kosovo; University of Montenegro, Faculty for Sport and Physical Education, Niksic, Montenegro
2Universe College, Department of Physical Culture, Sport and Recreation, Prishtina, Kosovo; AAB College, Faculty of Physical Education and Sport, Prishtina, Kosovo
3University of Montenegro, Faculty for Sports and Physical Education, Niksic, Montenegro
The Effect of Static Stretching in Agility and Isokinetic Force at Football Players
Cool Down is very important for the recuperation of a football player. The objective of this research is to prove the effect of recuperation with static stretching in agility and isokinetic force at the young football players. This research has taken place between August and November 2015 with a sample of 24 football players of age 15.6±0.4 years, divided in the control group and the experimental group. At first measurements have been initialed body weight 61.1±0.4 kg and body height 175.7±6.4 cm, and agility (20 m zig-zag with and without ball) and isokinetic force (peak torque flexion and extension). Both groups of the football players have completed the regular training program. The experimental group (despite the control group) during the stage of recuperation (cool down), except the running with slow pace did also carry out the experimental program which did take place through static stretching. Experimental program consisted of 17 exercises bodily static stretching which are applied in the final training session (cool-down). After the experimental phase is finished the participants did undergo the final measures. The conducted results with univariate analysis of variance (ANOVA) in two tests (initial and final) have shown unimportant statistical values between the control group and the experimental one in the isokinetic force and agility. From the collected results we can conclude the recuperation with static stretching during the cool down has an unimportant statistical impact in the agility and isokinetic force of the young football players.
soccer players, recovery, static stretching, isokinetic strength, agility
Andersen, J.C. (2005). Stretching before and after exercise: Effect on muscle soreness und injury risk. Journal of Athletes Training, 40, 218-220.
Behm, D.G., Chaouachi, A., Lau, P.W.C., & Wong, D.P. (2011). Short durations of statik stretching when combined with dynamic stretching do not impair repeated sprints and agility. Journal of Sports Science and Medicine, 10(2), 408+.
Bjelica, D., Popović, S., & Petković, J. (2013). Comparison of Instep Kicking Between Preferred and Non-Preferred Leg in Young Football Players. Montenegrin Journal of Sports Science and Medicine, 2(1), 5-10.
Brandey, J., Ajit, D.K., Richard, S.F., & Jennifer, L.C. (2012). Acute effects of statik and proprioceptive neuromusscular Fascilitation Stretching on Agility performance in Elite Youth Soccer Players. International Juranal Exercises Sciences, 5(2), 97-105.
Dawson, B., Gow, S., Modra, S., Bishop, D., & Stewart, G. (2005). Effects of immediate post-game recovery procedures on muscle soreness, power and flexibility levels over the next 48 hours. J Sci Med Sport, 8, 210- 221.
Dirnberger, J., Kösters, A., & Müller, E. (2012). Concentric and eccentric isokinetic knee extension: A reproducibility study using the IsoMed 2000-dynamometer. Isokinetics and Exercise Science, 20(1), 31–35.
Gardasevic, J., Bjelica, D., & Vasiljevic, I. (2016). Six-Week Preparation Period and its Effects on Transformation Movement Speed ëith Football Players under 16. Sport Mont, 14(1), 13-16.
Gardasevic, J., & Bjelica, D. (2013). Efekti programiranog trenažnog rada u trajanju od šest nedjelja na transformaciju fleksibilnosti kod fudbalera kadetskog uzrasta. Sport Mont, 37,38,39/XI, 212-217.
Gelen, E. (2010). Acute effects of different warm-up methods on sprint, slalom dribbling, and penalty kick performance in soccer players. J Strenth Cond Res, 24(4), 950-956.
Gioftsidou, A., Ispirlidis, I., Pafis, G., Malliou, P., Bikos, C., & Godolias, G. (2008). Isokinetic strength training program for muscular imbalances in professional soccer players. Sport Sciences for Health, 2(3), 101–105.
Grbovič, M. (2013). Merenje agilnosti u različito definisanim uslovima. Doktorska disertacija, Beograd: Fakultet sporta i fizičkog vaspitanja.
Guissard, N., & Duchateau, J. (2004). Effect of static stretch training on neural and mechanical properties of the himan plantar-flexor muscles. Muscle and Nerve, 29, 248-255.
Haddad, M., Dridi, A., Chtara, M., Chaouachi, A., Wong, P., Behm, D., & Chamari, K. (2014). Static stretching can impair explosive performance for at least 24 hours. The juarnal of Strength & Conditioning Ressearch, 28(1), 140-146.
Idrizovic, K. (2014). Physical and anthropometric profiles of elite female soccer players. Medicina dello sport, 67(2), 273-287.
Kelly, C., Fawzi, M., & Rajiv, V. (2012). Streching in the prevention of hamstring strains: Attitudes, beliefs and current practices amaong football coaches in Mauritius. Open Juarnal of preventive Medicine, 2, 141-148.
Kinugasa, T., & Kilding, A.E. (2009). A comparison of post-match recovery strategies in youth soccer players. J Strength Cond Res, 23, 1402-1407.
Kowalski, C.A. (2003). Correlation between time to peak torque and peak torque to vertical jump in college age athlete. Master’s Thesis, Marshal University.
Lehnert, M., Psotta, R., Chvojka, P., & Croix, M. (2014) Seasonal variation in isokinetic peak torque in youth soccer players. Kinesiology, 46(1), 79-87.
Milanovic, Z., Sporiš, G., Trajkovic, N., James, N., & Samija, K. (2013). Effect of a 12 Week SAQ Training Programme on Agility with and without the Ball among Young Soccer Players. Jurnal of Sports Sciences and Medicine, 12, 97-103.
Montgomery, P., Pyne, D., Hopkins, W., Dorman, J., Cook, K., & Minahan, C. (2008). The effect of recovery strategies on physical performance and cumulative fatigue in competitive basketball. Juarnal Sports Sciences, 26, 1135- 1145.
Newman, M.A., Tarpenning, K.M., & Marino, F.E. (2004). Relationships between isokinetic knee strength, single sprint performance, and repeated-sprint ability in football players. Journal of Strength and Conditioning Research, 18, 867–872.
Popović, S., Bjelica, D., Jakšić, D. & Hadžić, R. (2014). Comparative Study of Anthropometric Measurement and Body Composition between Elite Soccer and Volleyball Players. International Journal of Morphology, 32(1), 267-274.
Popović, S., Akpinar, S., Jakšić, D., Matić, R. & Bjelica, D. (2013). Comparative Study of Anthropometric Measurement and Body Composition between Elite Soccer and Basketball Players. International Journal of Morphology, 31(2), 461-467.
Rey, E., Carlos, L.P., Luis, C., & Joaquin. L.B., (2012). The Effect of Immediate Post-Training Active and Passive Recovery Interventions on Anaerobic Performance and Lower Limb Flexibility in Professional Soccer Players. Journal of Human Kinetics, 31, 121-129.
Stolen, T., Chamari, K., Castanga, C., & Wilsloff, U. (2005). Physiology of soccer. J Sports Med., 35(6), 501-536.
Tesitore, A., Meeusen, R., Cortis, C., & Caprinica, L. (2007). Effects of different recovery interventions on anaerobic performances following preseason soccer training. Journal of Strength and Conditioning Research, 21(3), 745–750.
Walker, B. (2006). The anatomy of stretching. Chichester: Lotus.
Wrigley, T.W. (2000). Assessment for football: soccer, Australian rules, and American. In L.E. Brown (Ed.). Isokinetics in human performance, 407–428.
Zakas, A., Doganis, G., Galazoulas, C., & Vamvakoudis, E. (2006). Effect of acute static stretching duration on isokinetic peak torque. Pediatr. Exerc. Sci., 18, 252-261.