Category
Running & Jumping
Document Type
Paper
Abstract
The purpose of this study was to identify changes in joint power in distance runners over a competitive season. Thirteen cross-country runners (age, 19.8±2.2 yrs; height, 1.74±0.10 m; mass, 61.9±9.0 kg) from the same university team underwent 3D biomechanical gait analyses at the start and end of a seven-week competitive season. Total negative lower limb power did not change, p=0.641. Total positive power increased by 1.8 W/kg, but it was not significant, p=0.311. While negative joint power contributions shifted proximal to distal, these were not significant for ankle (p=0.404), knee (p=0.930), or hip (p=0.261). Positive joint power contributions shifted distal to proximal, the changes were not significant for the ankle (p=0.652), knee (p=0.776), or hip (p=0.156). Joint power contributions may potentially change over a competitive season and reflect fatigue or influence injury risk.
Recommended Citation
Arena, Alexis M.; Schemel, Riley; Vargas-Blanchard, Isabella M.; and Mokha, Monique
(2024)
"CHANGES IN TOTAL AND PERCENT DISTRIBUTION OF JOINT POWER IN DISTANCE RUNNERS OVER A COMPETITIVE SEASON,"
ISBS Proceedings Archive: Vol. 42:
Iss.
1, Article 206.
Available at:
https://commons.nmu.edu/isbs/vol42/iss1/206
