https://doi.org/10.22190/FUTLTE1802137P

137

147

The aim of this research was to determine the connection between the level of physical activity and body composition among school-age children. The sample of participants included 479 students, 250 boys and 229 girls, school-age children, with an average age of 12,5±1,08. Their level of physical activity was evaluated using the FELS PAQ questionnaire, while their body composition was evaluated using the BIA method. To determine a connection between the group of predictor variables and the criterion variables, a canonical correlation analysis was used. The obtained results indicated that there is a positive correlation between the level of physical activity and the parameters of body composition, both for the sample of school-age boys (p= .002), and the sample of girls (p= .048). It could be concluded that the participants who were physically more active scored lower values for Body Fat and BMI, that is, higher values for Muscle Mass and Lean Body Mass.

physical activity, body composition, elementary school, children

Aarnio, M.E. (2003). Leisure-time physical activity in late adolescence: a cohort study of stability, correlates and familial aggregation in twin boys and girls. Journal of Sports Science and Medicine, 2 (2), 1-41.

American Public Health Association-Health Communities 2000 (1991). Model Standarrds for Community Attainment of the Year 2000 National Health Objectives, 3rd Edition. Washington, DC: APHA.

Bauman, A.E., Reis, R.S., Sallis, J.F., Wells, J.C., Loos, R.J., & Martin, B.W. (2012). Correlates of physical activity: Why are some people physically active and others not? The Lancet, 380 (9838), 258-271.

Bukara-Radujković, G. i Zdravković D. (2008). Determinante gojaznosti kod dece i adolescenata. Srpski arhiv za celokupno lekarstvo, 136(1-2), 22-27.

Bukara-Radujković, G. i Zdravković, D. (2009): Fizička aktivnost značajan faktor u sprečavanju gojaznosti u dečjem uzrastu. Medicinski pregled, LXII (3-4), 107-113.

Chung, А.Е., Skinner, A.C., Steiner, M.J. & Perrin, E.M. (2012). Physical Activity and BMI in a Nationally Representative Sample of Children and Adolescents. Clinical Pediatrics, 51(2), 122-129

Cooper, A.R., Wedderkopp, N., Wang, H., Andersen, L.B., Froberg, K. & Page, A.S. (2006). Active Travel to School and Cardiovascular Fitness in Danish Children and Adolescents. Medicine & Science in Sports & Exercise, 38(10), 1724-1731.

Corbin, C.B., Pangrazi, R.P. & Le Masurier, G.C. (2004). Physical activity for children: Current patterns and guidelines. President’s Council on Physical Fitness and Sports. Research Digest, 5(2), 1-8.

Correa-Rodríguez, M., Rueda-Medina, B., González-Jiménez, E. & Schmidt-RioValle, J. (2016). Associations between body composition, nutrition, and physical activity in young adults. American Journal of Human Biology, 29(1), e22903.

Cunningham, J.J. (1987). New approaches to the nonivasive assesment of body composition: Bioelectrical impedance analysis and total body electrical conductivity. Nutrition International, 3, 6-10.

Dodig, M. (1998). Razvoj tjelesnih sposobnosti čovječjeg organizma. Rijeka: Sveučilište u Rijeci.

Đokić, Z. (2014). Procena fizičkih aktivnosti učenika od 11 godina. TIMS Acta, 8(1), 61-69.

Еkelund, U., Neovius, M., Linné, Y., Brage, S., Wareham, N.J. & Rössner, S. (2005). Associations between physical activity and fat mass in adolescents: the Stockholm Weight Development Study. American Journal of Clinical Nutrition, 81(2), 355-360.

Еkelund, U., Åman, Ј., Yngve, А., Renman, C., Westerterp, K. & Sjöström, M. (2002). Physical activity but not energy expenditure is reduced in obese adolescents: a case-control study. American Journal of Clinical Nutrition, 76(5), 935–941.

Ellis, К. (2001). Selected body composition methods can be used in field studies. Journal of Nutrition, 131(5), 1589-1595.

Fleming-Moran, M. & Thiagarajah, K. (2005). Behavioural interventions and the role of television in the growing epidemic of adolescent obesity—data from the 2001 Youth Risk Behavioural Survey. Methods of Information in Medicine, 44(2), 303–309.

Gordon-Larsen, P., McMurray, R.G. & Popkin, B.M. (1999). Adolescent physical activity and inactivity vary by ethnicity: The National Longitudinal Study of Adolescent Health. Journal of Pediatrics, 135(3), 301-306.

Harsha, D. (1995). The Benefits of Physical activity in childhood, The Bogalusa heart Study. Medical Journal of the Medical sciences, 310(suppl1), 109-113.

Hjorth, M.F., Chaput, J.P., Ritz, C., Dalskov, S.M., Andersen, R., Astrup, A., Tetens, I., Michaelsen, K. F. & Sjödin, A. (2014). Fatness predicts decreased physical activity and increased sedentary time, but not vice versa: support from a longitudinal study in 8- to 11-year-old childrenInternational. Journal of Obesity, 38(7), 959–965.

Ischander, М., Zaldivar, F., Еliakim, А., Nussbaum, E., Dunton, G., Leu, S., Cooper, D.M. & Schneider, M. (2007). Physical Activity, Growth, and Inflammatory Mediators in BMI-Matched Femalе Adolescents. Medicine & Science in Sports & Exercise, 39(7), 1131-1138.

Jackson, A.S., Pollock, M.L., Graves, J.E. & Mahar, M.T. (1988). Reliability and validity of bioelektrical impedance in determining body composition. Journal of Applied Physiology, 64(2), 529-534.

Janssen, I., Katzmarzyk, P.T., Boyce, W.F., King, M.A. & Pickett, W. (2004). Overweight and Obesity in Canadian Adolescents and their Associations with Dietary Habits and Physical Activity Patterns. Journal of Adolescent Health, 35(5), 360-367.

Jiménez-Pavón D., Kelly J. & Reilly J.J. (2010). Associations between objectively measured habitual physical activity and adiposity in children and adolescents: Systematic review. International Journal of Pediatric Obesity, 5(1), 3-18.

Kaj, M., Németh, J., Tékus, E. & Wilhelm, M. (2013). Physique, body composition and physical fitness of Finish, Hungarian and American adolescents. Exercise and Quality of Life, 5(1), 19-29.

Kimm, S.Y., Glynn, N.W., Kriska, A.M., Barton, B.A., Kronsberg, S.S., Daniels, S.R., Crawford, P.B., Sabry, Z.I. & Liu, K. (2002). Decline in physical activity in black girls and white girls during adolescence. The New England Journal of Medicine, 347(10), 709-715.

Kimm, S.Y., Glynn, N.W., Obarzanek, E., Kriska, A.M., Daniels, S.R., Barton, B.A. & Liu, K. (2005). Relation between the changes in physical activity and body-mass index during adolescence: a multicentre longitudinal study. Lancet, 366(9482), 301–307.

Koezuka, N., Koo, M., Allison, K.R., Adlaf, E.M., Dwyer, J.J., Faulkner, G. & Goodman, J. (2006). The Relationship between Sedentary Activities and Physical Inactivity among Adolescents: Results from the Canadian Community Health Survey. Јournal of Adolescent Health, 39(4), 515-522

Livingstone, M.B.E., Robson, P.J., Wallace, J.M.W. & McKinley, M.C. (2003). How active are we? Levels of routine physical activity in children and adults. Proceedings of the Nutrition Society, 62(3), 681-701.

Lukaski, H. (1987). Methods for the assessment of human body composition: Traditional and new. American Journal of Clinical Nutrition, 46(4), 537-556.

Lukaski, H., Johnson, P.E, Bolonchuk, W. & Lykken, G. (1985). Assessment of fat-free mass using bioelectrical impedance measurements of the human body. American Journal of Clinical Nutrition, 41(4), 810-801.

Macura, M., Jerković, B., Đorđević-Nikić, M., Milanović, I. i Dabović, M. (2010). Razlike primenjenih metoda u proceni telesnog sastava dečaka adolescentskog uzrasta. Fizička kultura, 64(2), 5-13.

Maffeis, C., Zaffanello, M. & Schutz, Y. (1997). Relationship between physical inactivity and adiposity in prepubertal boys. The Journal of Pediatrics, 131(2), 288–292.

Maksimović, M., Ristić, G., Maksimović, J., Backović, D., Vuković,S., Ilie, T. i Milović, V. (2009). Povezanost fizičke aktivnosti i nekih parametara stanja uhranjenosti adolescenata. Srpski arhiv za celokupno lekarstvo, 137(1-2), 58-62.

Mitić D. (2001). Rekreacija. Beograd: Fakultet sporta i fizičkog vaspitanja.

Patrick, K., Norman, G.J. & Calfas, K.J. (2004). Diet, physical activity, and sedentary behaviours as risk factors for overweight in adolescence. Archives of Pediatrics & Adolescent Medicine, 158(4), 385–390.

Pišot, R. & Fras, Z. (2005). Some characteristics of the health enhancing motor/sports activity behaviors in Slovene population. In: D., Milanović, F.Prot [ed.] 4th International Scientific Conference on Kinesiology - Proceedings book (pp. 270-276). Zagreb: Faculty of Kinesiology.

Rakić, R., Pavlica, T., Božić-Krstić, V., Jovičić, D., Novaković, M. i Drobac, D. (2013). Morfološke karakteristike i telesna kompozicija kod premenerhalnih i post menerhalnih devojčica iz Vršca. Glasnik Antropološkog društva Srbije, (48), 57-64.

Raustorp, A., Pangrazi R.P. & Stahle, A. (2004). Physical activity level and body mass index among schoolchildren in south-eastern Sweden. Acta Paediatrica, 93(3), 400-404.

Rowland, T.W. (1999). Adolescence: A" Risk Factor" for Physical Inactivity. Research Digest, 3(6), 1-5.

Stokić, E.J., Srdić, B., Peter, A. i Ivković-Lazar, T.A. (2002). Masna masa tela u normalnoj uhranjenosti. Medicinski pregled, 55(9-10), 407-411.

Treuth, M.S., Hou, N., Young, D.R. & Maynard, L.M. (2005). Validity and reliability of the Fels physical activity questionnaire for children. Medicine & Science in Sports & Exercise, 37(3), 488-495.

Wanner, M., Martin, B., Autenrieth, C., Schaffner, E., Brombach, C., Stolz, D., Bauman, A. & Rochat, T., (2016). Associations between domains of physical activity, sitting time, and different measures of overweight and obesity. Preventive Medicine Reports, 3, 177-184.

Warburton, D.E., Nicol, C.W. & Bredin, S.S. (2006). Health benefits of physical activity: the evidence. CMAJ, 74(6), 801-809.