Shock and impact reduction in moderate and strenuous landing activities |
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Authors: | Songning Zhang Timothy R. Derrick William Evans Yeon-Joo Yu |
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Affiliation: | 1. The University of Tennessee , Knoxville, Tennessee, USA szhang@utk.edu;3. Iowa State University , Ames, Iowa, USA;4. Steps Inc. , USA;5. Seoul National University , Seoul, Korea |
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Abstract: | Shock reduction has been well studied in moderate activities such as walking and running. However, there is a clear lack of research concerning shock wave transmission and reduction in more strenuous landing activities. In this study, we examined the impact of shock transmission and reduction in landing activities with varied mechanical demands. Ten active males were recruited for the study. They performed five successful step-off landing trials from each of five heights: 30, 45, 60, 75, and 90 cm. Right sagittal kinematics, ground reaction forces, and acceleration were recorded simultaneously. Impact frequencies were analysed using a discrete Fast Fourier Transform and power spectral density was computed. Increased range of motion for the ankle, knee, and hip joints was observed at higher landing heights. The peaks of the vertical ground reaction force, forehead and tibial accelerations, and eccentric muscle work by lower extremity joints were increased with increased landing heights. The peak head power spectral density was severely attenuated at higher frequencies but the peak tibia power spectral density did not demonstrate this trend. Shock reduction showed increased reduction at higher frequencies, but minimal changes across five landing heights. Unlike the responses observed for walking and running, the shock reduction did not show significant improvement with elevated mechanical demands. |
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Keywords: | Impact injury mechanism landing mechanical loading shock reduction |
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