Evaluation of some physical fitness characteristics at age 11 to 13

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Many studies indicate that an adequate physical fitness is an important marker for a healthy body and a healthy mind. The aim of the study was investigate the level of physical fitness of students aged 11-13. Depending on the results, we will determine the type of measures to propose in order to improve the obtained data.

251 volunteer students participated in this research, including 95 boys and 156 girls aged 11 to 13, who participated in the physical education class two times a week. Subjects underwent six anthropometric characteristics and five physical tests. For the statistical analysis the mean, standard deviation, and multiple comparisons were used in order to find the differences between genders, using Anova and Bonferoni Test for differences between certain age groups. Anthropometric measurements included height, weight, arm span, waist, hip, body mass index and physical testing as agility, balance and strength.

The findings suggest some differences between male and female subjects, as well as between age groups, namely boys obtained higher mean results compared to girls.

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  • 1. Canhadas I.L. Lopez R. Silva P. Rodrigures C. Leslie C. Portes A. (2010). Anthropometric and physical fitness characteristics of young male soccer player Rev. Bras. Cineantropom. Desempenho Hum. 12(4) pp. 239-245.

  • 2. Cordova A. Villa G. Sureda A. Rodriques-Marrovo J.A. Sanchez-Collado M.P. (2012). Physical Activity and Cardiovascular Risk Factors in Spanish Children Aged 11-13 Years Rev. Esp. Cardiol. 65(7) pp. 620-6.

  • 3. Cordun M. (2009). Kinantropometrie Editura CD Press Bucureşti (in Romanian).

  • 4. Fuster V. Topol E.J. Nabel E.G. (2005). Atherothrombosis and coronary artery disease New York: Lippincott Williams & Wilkins.

  • 5. Gallahue D.L. Cleland-Donnelly F. (2003). Developmental physical education for all children Human Kinetics pp. 9-91.

  • 6. García-Ortiz L. Grandes G. Sánchez-Pérez A. Montoya I. Iglesias-Valiente J.A. Recio-Rodríguez J.I. et al. (2010). Efecto en el riesgo cardiovascular de una intervención para la promoción del ejercicio físico ensujetos sedentarios por el médico de familia Rev. Esp. Cardiol. 63 pp. 1244-52.

  • 7. International Society for the Advancement of Kinanthropometry (2001). International Standards for anthropometric assessment Potchefstroom South Africa.

  • 8. Mackenzie B. (2004). 101 Performance Evaluation Tests Electric World Plc. London.

  • 9. Moraru C. Radu L.E. (2014). Aspects Regarding the Level of Coordinative Abilities in both Athletes and Non-Atheletes (ICSPEK 2013) Procedia Social and Behavioral Sciences vol. 117 pp. 162-166.

  • 10. Pearson D.T. Naughton G.A. Torode M. (2006). Predictability of physiological testing and the role of maturation in talent identification for adolescent team sports J. Sci. Med. Sports 9 pp. 277-87.

  • 11. Popovici I.M. Radu L.E (2014). Anthropometric and Physical Fitness Analyses between Female Handball Players and Sedentary Girls Gymnasium Scientific Journal on Education Sports and Health XV(1) pp. 95-108.

  • 12. Radu L.E. Vanvu G. (2012). 11-13 years children's motor skills – athletes and non-athletes. Comparative study Gymnasiun Scientific Journal of Education Sport and Health. Supplement vol. XIII pp. 271-274.

  • 13. Castro-Pinero J. Ortega F.B. Artero E.G. Girela-Rejon M.J. Mora J. et al. (2010). Assessing muscular strength in youth: usefulness of standing long jump as a general index of muscular fitness Journal of Strength and Conditioning Research 24(7) pp. 1810-1817.

  • 14. Caswell S.V. Ausborn A. Diao G. et al. (2016). Anthropometrics Physical Performance and Injury Characteristics of Youth American Football Ortopaedic Journal of Sports Medicine 4 (8) 2325967116662251.

  • 15. Bacapoulou F. Efthymiou V. Landis G. Rentoumis A. Chrousos G. (2015). Waist circumference waist-to-hip ratio and waist-to-height ratio reference percentiles for abdominal obesity among Greek adolescents BMC Pediatrics 15 p. 50

  • 16. Maffeis C. Pietrobelli A. Grezzani A. Provera S. Tato L. (2001). Waist circumference and cardiovascular risk factors in pre-pubertal children Obes Res. 9 pp. 179–87.

  • 17. Rogol A.D. Clark P.A. Roemmich J.N. (2000). Growth and pubertal development in children and adolescents: effects of diet and physical activity Am. J. Clin. Nutr. 72(Suppl.) pp. 521S-8S.

  • 18. Sauka M. Priedite I.S. Artiuhova L. et al. (2011). Physical fitness in northern European youth: Reference values from the Latvian Physical Health in Youth Study Scandinavian Journal of Public Health 37(1) pp. 35-43.

  • 19. Simsek E. Aktug Z.B. Celenik C. et al. (2014). The Evaluation of Physical Characteristics of Football Players at the Age of 9-15 in Accordance With Age Variables International Journal of Science Culture and Sport 1 pp. 460-468.

  • 20. Vestraete S.J. Cardon G.M. De Clerq D.L. De Bourdeaudhuij I.M. (2007). A comprehensive physical activity promotion programme at elementary school: the effects on physical activity physical fitness and psychosocial correlates of physical activity. Public Health Nutrition 10(5) pp. 477-484.

  • 21. Yuksel O. Tamer K. Caliscan G. (2014). Evaluate the physical fitness levels of Turkish primary school male and female children between 7-14 ages Ovidius University Annals Series Physical Education and Sports 14(2) pp. 585-593.

  • 22. Skowronski W. Horvat M. Nocera J. et al. (2009). Eurofit special: European Fitness Battery Score Variation Among Individuals With Intellectual Disabilities Adapted Physical Activity Quarterly 26 pp. 54-67.

  • 23. Sekeljig G. Stamatovic M. Markovic J. (2016). Virtual space of the basic motoric structures Facta Universitatis Series Physical Education and Sport 14(1) pp. 99-108.

  • 24. Gajic M. (1985). Basics of human motorics Novi Sad: Faculty of Physical Culture.

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