Effect of Grade and Surface Type on Peak Tibial Acceleration in Trained Distance Runners

Runners experience repeated impact forces during training, and the culmination of these forces can contribute to overuse injuries. The purpose of this study was to compare peak vertical tibial acceleration (TA) in trained distance runners on 3 surface types (grass, asphalt, and concrete) and 3 grade...

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Bibliographic Details
Published in:Journal of applied biomechanics 2021-02, Vol.37 (1), p.2-5
Main Authors: Waite, Nathan, Goetschius, John, Lauver, Jakob D
Format: Article
Language:English
Subjects:
Accelerometry
Biomechanical Phenomena
Construction Materials
Cross-Over Studies
Female
Humans
Hydrocarbons
Male
Poaceae
Running
Running - physiology
Tibia
Young Adult
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Summary:Runners experience repeated impact forces during training, and the culmination of these forces can contribute to overuse injuries. The purpose of this study was to compare peak vertical tibial acceleration (TA) in trained distance runners on 3 surface types (grass, asphalt, and concrete) and 3 grades (incline, decline, and level). During visit 1, subjects completed a 1-mile time trial to determine their pace for all running trials: 80% (5%) of the average time trial velocity. During visit 2, subjects were outfitted with a skin-mounted accelerometer and performed 18 separate running trials during which peak TA was assessed during the stance phase. Each subject ran 2 trials for each condition with 2 minutes of rest between trials. Peak TA was different between decline (8.04 [0.12] g) and incline running (7.31 [0.35] g; P = .020). On the level grade, peak TA was greater during grass (8.22 [1.22] g) compared with concrete (7.47 [1.65] g; P = .017). On the incline grade, grass (7.68 [1.44] g) resulted in higher peak TA than asphalt (6.99 [1.69] g; P = .030). These results suggest that under certain grade conditions grass may result in higher TA compared with either concrete or asphalt.
ISSN:1065-8483
1543-2688
DOI:10.1123/jab.2020-0096