Characterizing Exposure to Head Acceleration Events in Youth Football Using an Instrumented Mouthpiece

Understanding characteristics of head acceleration events (HAEs) in youth football is vital in developing strategies to improve athlete safety. This study aimed to characterize HAEs in youth football using an instrumented mouthpiece. Youth football athletes (ages 11–13) participating on two teams we...

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Bibliographic Details
Published in:Annals of biomedical engineering Vol. 50; no. 11; pp. 1620 - 1632
Main Authors: Marks, Madison E., Holcomb, Ty D., Pritchard, N. Stewart, Miller, Logan E., Espeland, Mark A., Miles, Christopher M., Moore, Justin B., Foley, Kristie L., Stitzel, Joel D., Urban, Jillian E.
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-11-2022
Springer Nature B.V
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Summary:Understanding characteristics of head acceleration events (HAEs) in youth football is vital in developing strategies to improve athlete safety. This study aimed to characterize HAEs in youth football using an instrumented mouthpiece. Youth football athletes (ages 11–13) participating on two teams were enrolled in this study for one season. Each athlete was instrumented with a mouthpiece-based sensor throughout the season. HAEs were verified on film to ensure that mouthpiece-based sensors triggered during contact. The number of HAEs, peak resultant linear and rotational accelerations, and peak resultant rotational velocity were quantified. Mixed effects models were used to evaluate differences in mean kinematic metrics among all HAEs for session type, athlete position, and contact surface. A total of 5,292 HAEs were collected and evaluated from 30 athletes. The median (95th percentile) peak resultant linear acceleration, rotational acceleration, and rotational velocity was 9.5 g (27.0 g), 666.4 rad s −2 (1863.3 rad s −2 ), and 8.5 rad s −1 (17.4 rad s −1 ), respectively. Athletes experienced six (22) HAEs per athlete per session (i.e., practice, game). Competition had a significantly higher mean number of HAEs per athlete per session and mean peak rotational acceleration. Peak resultant rotational kinematics varied significantly among athlete positions. Direct head impacts had higher mean kinematics compared to indirect HAEs, from body collisions. The results of this study demonstrate that session type, athlete position, and contact surface (i.e., direct, indirect) may influence HAE exposure in youth football.
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ISSN:0090-6964
1573-9686
DOI:10.1007/s10439-022-03097-7