Search Results - Pediatric Exercise Science
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Age-related differences in spatiotemporal variables and ground reaction forces during sprinting in boys
Nagahara, R., Takai,Y., Haramura, M., Mizutani, M., Matsuo, A., Kanehisa, H., Fukunaga, T.Published in Pediatric Exercise Science (2018)“…Pediatric Exercise Science…”
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2
Hip flexor and knee extensor muscularity are associated with sprint performance in sprint-trained preadolescent boys
Tottori, N., Suga, T., Miyake, Y., Tsuchikane, R., Otsuka, M., Nagano, A., Fujita, S., Isaka, T.Published in Pediatric Exercise Science (2018)“…Pediatric Exercise Science…”
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3
Baseline ability makes a larger contribution to race performance in high-school sprinters than race experience or training exposure
Lynch, K. E., Thomas, A., Gibson, B.Published in Pediatric Exercise Science (2016)“…Pediatric Exercise Science…”
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4
High carbohydrate diet induces faster final sprint and overall 10,000-m times of young runners
Guimaraes Couto, P., Bertuzzi, R., de Souza, C. C., Lima, H. M., Peduti Dal Molin Kiss, M. A., De-Oliveira, F. R., Lima-Silva, A. E.Published in Pediatric Exercise Science (2015)“…Pediatric Exercise Science…”
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Genetic profiles and prediction of the success of young athletes` transition from middle- to long-distance runs: An exploratory study
Ben-Zaken, S., Meckel, Y., Lidor, R., Nemet, D., Eliakim, A.Published in Pediatric Exercise Science (2013)“…Pediatric Exercise Science…”
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Effect of different training methods on running sprint times in male youth
Rumpf, M. C., Cronin, J. B., Pinder, S. D., Oliver, J., Hughes, M.Published in Pediatric Exercise Science (2012)“…Pediatric Exercise Science…”
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7
Bone and muscle geometry in female adolescent middle-distance runners
Greene, D., Naughton, G. A., Briody, J. N., Kemp, A., Woodhead, H., Farpour-Lambert, N.Published in Pediatric Exercise Science (2005)“…Pediatric Exercise Science…”