REFERENCES
- Asmussen, E. (1953). Positive and negative muscular work. Acta Physiologica Scandinavica, 28, 364-382.
- Asmussen, E. and Bonde-Petersen, F. (1974). Apparent efficiency and storage of elastic energy in human muscles during exercise. Acta Physiologica Scandinavica, 92, 537-545.
- Astrand, P.O. (1952). Experimental Studies of Physical Working Capacity in Relation to Sex and Age. Copenhagen: Ejnar Munksgaard.
- Bar-Or, O. (1983). Pediatrie Sports Medicine for the Practitioner. New York: Springer.
- Burden, R.G., Skrinar, G.S. and Simon, S.R. (1983). Comparison of mechanical work and metabolic energy consumption during normal gait. Journal of Orthopedic Research, 1, 63-72.
- Caldwell, G.E. and Forrester, L.W. (1992). Estimates of mechanical work and energy transfers: demonstration of a rigid body power model of the recovery leg in gait. Medicine and Science in Sports and Exercise, 24, 1396-1412.
- Cavanagh, P.R. and Kram, R. (1985). Mechanical and muscular factors affecting the efficiency of human movement. Medicine and Science in Sports and Exercise, 17, 326-331.
- Davies, C.T.M. (1980). Metabolic cost of exercise and physical performance in children with some observations on external loading. European Journal of Applied Physiology, 45, 95-102.
- Dowling, J., Frost, G. and Bar-Or, O. (1995). The ability of mechanical power estimations to identify sources of running inefficiency in children. In XVth Congress of the International Society of Biomechanks Book of Abstracts (edited by K. Häkkinen, K. Keskinen, P. Komi and A. Mero), pp. 236-237. Jyväskylä: Gummerus Publishing.
- Duke, P., Litt, I. and Gross, R. (1980). Adolescents' self-assessment of sexual maturation. Pediatrics, 66, 918-920.
- Ebbeling, C.J., Hamill, J., Freedson, P.S. and Rowland, T. (1992). An examination of efficiency during walking in children and adults. Pediatrie Exercise Science, 4, 36-49.
- Frederick, E. (1985). Synthesis, experimentation and the biomechanics of economical movement. Medicine and Science in Sports and Exercise, 17, 44-47.
- Frost, G., Dowling, J., Bar-Or, O. and Dyson, K. (1997a). The ability of mechanical power estimations to explain differences in metabolic cost of walking and running among children. Gait and Posture, 5, 120-127.
- Frost, G., Dowling, J., Bar-Or, O. and Dyson, K. (1997b). Cocontraction in three age groups of children during treadmill locomotion. Journal of Electromyography and Kinesiology, 7, 179-186.
- Jensen, R.K. (1989). Changes in segment inertia proportions between 4 and 20 years. Journal of Biomechanics, 22, 529-536.
- Kanaley, JA., Boileau, R.A., Massey, B.H. and Misner, J.E. (1989). Muscular efficiency during treadmill walking: the effects of age and workload. Pediatrie Exercise Science, 1, 155-162.
- Krahenbuhl, G.S. and Williams, T.J. (1992). Running economy: changes with age during childhood and adolescence. Medicine and Science in Sports and Exercise, 24, 462-466.
- MacDougall, J.D., Roche, P.D., Bar-Or, O. and Moroz, J. (1983). Maximal aerobic capacity of Canadian schoolchildren: prediction based on age-related oxygen cost of running. Inter national Journal of Sparts Medicine, 4, 194-198.
- Martin, P.E., Heise, G.D. and Morgan, D.W. (1993). Interrelationships between mechanical power, energy transfers, and walking and running economy. Medicine and Science in Sports and Exercise, 25, 508-515.
- Martinez, L.R and Haymes, E.M. (1992). Substrate utilization during treadmill running in prepubertal girls and women. Medicine and Science in Sports and Exercise, 24, 975-983.
- Moritani, T., Oddsson, L., Thorstensson, A. and Åstrand, P.-O. (1989). Neural and biomechanical differences between men and young boys during a variety of motor tasks. Acta Physiologica Scandinavica, 137, 347-355.
- Olney, S.J. and Winter, DA. (1985). Selecting representative muscles for EMG analysis of gait: a methodology. Physiotherapy Canada, 37, 211-217.
- Pierrynowski, M.R, Winter, DA. and Norman, R.W. (1980). Transfers of mechanical energy within the total body and mechanical efficiency during treadmill walking. Ergonomics, 23,147-156.
- Rowland, T. (1996). Developmental Exercise Physiology. Champaign, IL: Human Kinetics.
- Rowland, T. (1998). The case of the elusive denominator. Pediatrie Exercise Science, 10, 1-5.
- Rowland, T.W. and Green, G. (1988). Physiological responses to treadmill exercise in females: adult-child differences. Medicine and Science in Sports and Exercise, 20, 474-478.
- Shorten, M.R, Wootten, S.A. and Williams, C. (1981). Mechanical energy changes and the oxygen cost of running. Engineering Medicine, 10, 213-217.
- Tanner, J.M. (1962). Growth at Adolescence. Oxford: Blackwell.
- Unnithan, VB. and Eston, R.G. (1990). Stride frequency and submaximal treadmill running economy in adults and children. Pediatrie Exercise Science, 2, 149-155.
- Unnithan, V.B., Dowling, J., Frost, G. and Bar-Or, O. (1999). Role of mechanical power estimates in the O2 cost of walking in children with cerebral palsy. Medicine and Science in Sports and Exercise, 31, 1703-1708.
- Welsman, J. and Armstrong, N. (2000) Longitudinal changes in submaximal oxygen uptake in 11- to 13-year-olds. Journal of Sports Sciences, 18, 183-189.
- Williams, K.R. (1985). The relationship between mechanical and physiological energy estimates. Medicine and Science in Sports and Exercise, 17, 317-325.
- Williams, K.R. and Cavanagh, RR (1983). A model for the calculation of mechanical power during distance running. Journal of Biomechanics, 16, 115-128.
- Williams, K.R. and Cavanagh, RR (1987). Relationship between distance running mechanics, running economy and performance. Journal of Applied Physiology, 63, 1236-1245.
- Winter, D.A. (1990). Biomechanics and Motor Control of Human Movement, 2nd edn. New York: Wiley.