Page 86 - Sember, Vedrana, and Shawnda A. Morrison. 2018. The Mind-Body Connection. Koper: University of Primorska Press.
P. 86
References
Stephens (Eds.), Physical activity, fitness, and health (pp. 77–88). Cham-
paign, IL: Human Kinetics Books.
Bouchard, C., Tremblay, A., Nadeau, A., Dussault, J., Despres, J. P., Theriault,
G., . . . & Fournier, G. (1990). Long-term exercise training with constant
energy-intake: 1. Effect on body-composition and selected metabolic
variables. International Journal of Obesity, 14, 1, 57–73.
Bouten, C. V., Westerterp, K. R., Verduin, M., & Janssen, J. D. (1994). Assess-
ment of energy expenditure for physical activity using a triaxial acceler-
ometer. Medicine & Science in Sports & Exercise, 26, 1516–1552.
Bös, K. (1994). Differentielle Aspekte der Entwicklung motorischer Fähigkeiten.
In J. Baur, K. Bös & R. Singer (Eds.), Motorische Entwicklung: Ein Hand-
buch (pp. 238–254). Schorndorf, Germany: Verlag Hofmann.
Bradney, M., Pearce, G., Naughton, G., Sullivan, C., Bass, S., Beck, T., . . . & See-
man, E. (1998). Moderate exercise during growth in prepubertal boys:
Changes in bone mass, size, volumetric density, and bone strength;
A controlled prospective study. Journal of Bone and Mineral Research,
13(12), 1814–1821.
Brage, S., Wedderkopp, N., Ekelund, U., Franks, P. W., Wareham, N. J., An-
dersen, L. B., & Froberg, K. (2004). Features of the Metabolic Syndrome
are associated with objectively measured physical activity and fitness in
Danish children the European Youth Heart Study (EYHS). Diabetes care,
27(9), 2141–2148.
Bratina, N., Hadžic´, V., Battelino, T., Pistotnik, B., Dolenc, M., Šajber, D., . . .
& Derviševic´, E. (2013). Slovenian guidelines for physical activity in chil-
dren and adolescents in the age group 2–18 years. Zdravniški vestnik,
80(12), 885–896.
Breslow, N. E. (2014). Case-control studies. In W. Ahrens and I. Pigeot (Eds.),
Handbook of epidemiology (pp. 293–323). New York, NY: Springer.
Broderick, C. R., Herbert, R. D., Latimer, J., Barnes, C., Curtin, J. A., Mathieu,
E., . . . & Brown, S. A. (2012). Association between physical activity and
risk of bleeding in children with hemophilia. Jama, 308(14), 1452–1459.
Brudvik, C., & Hove, L. M. (2003). Childhood fractures in Bergen, Norway:
Identifying high-risk groups and activities. Journal of Pediatric Ortho-
paedics, 23(5), 629–634.
Buckworth, J., Lee, R. E., Regan, G., Schneider, L. K., & DiClemente, C. C.
(2007). Decomposing intrinsic and extrinsic motivation for exercise: Ap-
plication to stages of motivational readiness. Psychology of Sport and Ex-
ercise, 8(4), 441–461.
Bucˇar Pajek, M., Strel, J., Kovacˇ, M., & Pajek, J. (2004). Narašcˇanje prekomerne
84
Stephens (Eds.), Physical activity, fitness, and health (pp. 77–88). Cham-
paign, IL: Human Kinetics Books.
Bouchard, C., Tremblay, A., Nadeau, A., Dussault, J., Despres, J. P., Theriault,
G., . . . & Fournier, G. (1990). Long-term exercise training with constant
energy-intake: 1. Effect on body-composition and selected metabolic
variables. International Journal of Obesity, 14, 1, 57–73.
Bouten, C. V., Westerterp, K. R., Verduin, M., & Janssen, J. D. (1994). Assess-
ment of energy expenditure for physical activity using a triaxial acceler-
ometer. Medicine & Science in Sports & Exercise, 26, 1516–1552.
Bös, K. (1994). Differentielle Aspekte der Entwicklung motorischer Fähigkeiten.
In J. Baur, K. Bös & R. Singer (Eds.), Motorische Entwicklung: Ein Hand-
buch (pp. 238–254). Schorndorf, Germany: Verlag Hofmann.
Bradney, M., Pearce, G., Naughton, G., Sullivan, C., Bass, S., Beck, T., . . . & See-
man, E. (1998). Moderate exercise during growth in prepubertal boys:
Changes in bone mass, size, volumetric density, and bone strength;
A controlled prospective study. Journal of Bone and Mineral Research,
13(12), 1814–1821.
Brage, S., Wedderkopp, N., Ekelund, U., Franks, P. W., Wareham, N. J., An-
dersen, L. B., & Froberg, K. (2004). Features of the Metabolic Syndrome
are associated with objectively measured physical activity and fitness in
Danish children the European Youth Heart Study (EYHS). Diabetes care,
27(9), 2141–2148.
Bratina, N., Hadžic´, V., Battelino, T., Pistotnik, B., Dolenc, M., Šajber, D., . . .
& Derviševic´, E. (2013). Slovenian guidelines for physical activity in chil-
dren and adolescents in the age group 2–18 years. Zdravniški vestnik,
80(12), 885–896.
Breslow, N. E. (2014). Case-control studies. In W. Ahrens and I. Pigeot (Eds.),
Handbook of epidemiology (pp. 293–323). New York, NY: Springer.
Broderick, C. R., Herbert, R. D., Latimer, J., Barnes, C., Curtin, J. A., Mathieu,
E., . . . & Brown, S. A. (2012). Association between physical activity and
risk of bleeding in children with hemophilia. Jama, 308(14), 1452–1459.
Brudvik, C., & Hove, L. M. (2003). Childhood fractures in Bergen, Norway:
Identifying high-risk groups and activities. Journal of Pediatric Ortho-
paedics, 23(5), 629–634.
Buckworth, J., Lee, R. E., Regan, G., Schneider, L. K., & DiClemente, C. C.
(2007). Decomposing intrinsic and extrinsic motivation for exercise: Ap-
plication to stages of motivational readiness. Psychology of Sport and Ex-
ercise, 8(4), 441–461.
Bucˇar Pajek, M., Strel, J., Kovacˇ, M., & Pajek, J. (2004). Narašcˇanje prekomerne
84