Evaluation of fatigue in semi-professional football players: association between overtraining and physical fitness

1. Bigard A.X. (2001) Exercise-induced muscle injury and overtraining. Sci. Sports.,16(4): 204-215. 10.1016/S0765-1597(00)00037-XSearch in Google Scholar

2. Eidelman D. (1980) Fatigue: Towards an analysis and a unified definition. Med. Hypotheses, 6(5): 517-526. 10.1016/0306-9877(80)90105-XSearch in Google Scholar

3. Kuipers H., Keizer H.A. (1988) Overtraining in elite athletes. Review and directions for the future. Sports Med., 6(2): 79-92. 10.2165/00007256-198806020-000033062735Search in Google Scholar

4. Aloulou I., Manetta J., Dumortier M., Brandou F., Varlet-Marie E., Fédou C. et al. (2003) Effects out of mirror of the drive and overtraining on the somatotropic function and the glucido-lipidic balance with the exercise. Sci. Sports, 18(6): 305-307. 10.1016/j.scispo.2003.10.003Search in Google Scholar

5. Banfi G., Dolci A. (2006) Free testosterone/cortisol ratio in soccer: Usefulness of a categorization of values. J. Sports Med. Phys. Fitness, 46(4): 611-616. Search in Google Scholar

6. Kraemer W.J., French D.N., Paxton N.J., Hakkinen K., Volek J.S., Sebastianelli W.J. et al. (2004) Changes in exercise performance and hormonal concentrations over a big ten soccer season in starters and nonstarters. J. Strength Cond. Res., 18(1): 121-128. Search in Google Scholar

7. Bosquet L., Leger L., Legros P. (2001) Blood lactate response to overtraining in male endurance athletes. Eur. J. Appl. Physiol., 84(1–2): 107-1014. 10.1007/s00421000034311394238Search in Google Scholar

8. Wiacek M., Andrzejewski M., Chmura J., Zubrzycki I.Z. (2011) The changes of the specific physiological parameters in response to 12-week individualized training of young soccer players. J. Strength Cond. Res., 25(6): 1514-1521. 10.1519/JSC.0b013e3181ddf86021386728Search in Google Scholar

9. Lehmann M., Schnee W., Scheu R., Stockhausen W., Bachl N. (1992) Decreased nocturnal catecholamine excretion: parameter for an overtraining syndrome in athletes? Int. J. Sports Med., 13(3): 236-242. 10.1055/s-2007-10212601601559Search in Google Scholar

10. Legros P., (1993) «Surentraînement» elg. Le surentrainement: diagnostic des manifestations psychocomportementales précoces. Sci. Sports, 8: 71-74. Search in Google Scholar

11. Flore P., Sarrazin P., Favre-Juvin A. (2003) Le questionnaire de surentraînement de la Société française de médecine du sport : reproductibilité à court terme. Sci. Sports, 18: 290-292. Search in Google Scholar

12. Bricout V.A., Favre-Juvin A. (2006) Utilisation of a questionnaire of fatigue in sport children: effect of sport, age and gender. Arch. Pediatr., 13(12): 1572-1580. 10.1016/j.arcped.2006.09.00517049824Search in Google Scholar

13. Bricout V.A., Charrier I., Favre-Juvin A. (2007) Use of the fatigue questionnaire (QFES) in child athletes for individual follow-up: two cases. Ann. Readapt. Med. Phys., 50(8): 685-689. 10.1016/j.annrmp.2007.05.010Search in Google Scholar

14. Parizkova J. Lean body mass and depot fat during autogenesis in humans. In: Parizkova J., Rogozkin, V., editor. Nutrition, Physical Fitness and Health: International Series on Sport Sciences. Baltimore: University Park Press, 1978. Search in Google Scholar

15. Ross W.D., Marfell-Jones M.J. Kinanthropometry. In: MacDougall J.D., Wenger H.A., Green H.J., editors. Physiological testing of the high-performance athlete. Champaign, IL: Human Kinetics, 1991. Search in Google Scholar

16. Ayala F., Sainz de Baranda P., De Ste Croix M., Santonja F. (2012) Absolute reliability of five clinical tests for assessing hamstring flexibility in professional futsal players. Journal of science and medicine in sport/Sports Medicine Australia, 15(2): 142-147. 10.1016/j.jsams.2011.10.00222104651Search in Google Scholar

17. Bland J., Pfeiffer K., Eisenmann J.C. (2012) The PWC170: comparison of different stage lengths in 11–16 year olds. Eur. J. Appl. Physiol., 112(5): 1955-1961. 10.1007/s00421-011-2157-zSearch in Google Scholar

18. Driss T., Vandewalle H. (2013) The measurement of maximal (anaerobic) power output on a cycle ergometer: a critical review. BioMed research international., 2013: 589361. Search in Google Scholar

19. Cohen J. Statistical power analysis for the behavioral sciences. 2nd ed. Hillsdale, N.J.: Lawrence Erlbaum Associates, 1988. Search in Google Scholar

20. Chelly M.S., Cherif N., Ben Amar M., Hermassi S., Fathkoun M., Bouhlel E. et al. (2010) Relationship of peak leg power, 1 maximal repetition half back squat, and leg muscle volume to 5-m sprint performance of junior soccer players. J. Strength Cond. Res., 24(1): 266-271. 10.1519/JSC.0b013e3181c3b298Search in Google Scholar

21. Bouhlel E., Bouhlel H., Chelly M.S., Tabka Z. (2006) Relationship between maximal anaerobic power measured by force-velocity test and performance in the countermovement jump and in the 5-jump test in moderately trained boys. Sci. Sports, 21(1): 1-7. Search in Google Scholar

22. Morin J.B., Hintzy F., Belli A., Grappe F. (2002) Force-velocity relationships and sprint running performances in trained athletes. Sci. Sports, 17(2): 78-85. 10.1016/S0765-1597(02)00124-7Search in Google Scholar

23. Perez-Gomez J., Rodriguez G.V., Ara I., Olmedillas H., Chavarren J., González-Henriquez J.J. et al. (2008) Role of muscle mass on sprint performance: Gender differences? Eur. J. Appl. Physiol., 102(6): 685-694. 10.1007/s00421-007-0648-818084774Search in Google Scholar

24. Nikolaidis P.T. (2012) Age-related differences in force-velocity characteristics in youth soccer. Kinesiology, 44(2): 130-138. Search in Google Scholar

25. Nikolaidis P.T. (2011) Anaerobic power across adolescence in soccer players. Human Movement, 12(4): 342-347. 10.2478/v10038-011-0039-1Search in Google Scholar