| Literature DB >> 29651910 |
Srinidhi Bellamkonda1, Samantha J Woodward1, Eamon Campolettano2, Ryan Gellner2, Mireille E Kelley3, Derek A Jones3, Amaris Genemaras4, Jonathan G Beckwith4, Richard M Greenwald4, Arthur C Maerlender5, Steven Rowson2, Stefan M Duma2, Jillian E Urban3, Joel D Stitzel3, Joseph J Crisco1.
Abstract
This study aimed to compare head impact exposures between practices and games in football players ages 9 to 14 years, who account for approximately 70% of all football players in the United States. Over a period of 2 seasons, 136 players were enrolled from 3 youth programs, and 49,847 head impacts were recorded from 345 practices and 137 games. During the study, individual players sustained a median of 211 impacts per season, with a maximum of 1226 impacts. Players sustained 50th (95th) percentile peak linear acceleration of 18.3 (46.9) g, peak rotational acceleration of 1305.4 (3316.6) rad·s-2, and Head Impact Technology Severity Profile of 13.7 (24.3), respectively. Overall, players with a higher frequency of head impacts at practices recorded a higher frequency of head impacts at games (P < .001, r2 = .52), and players who sustained a greater average magnitude of head impacts during practice also recorded a greater average magnitude of head impacts during games (P < .001). The youth football head impact data quantified in this study provide valuable insight into the player exposure profile, which should serve as a key baseline in efforts to reduce injury.Entities:
Keywords: HIT system; impacts per game; impacts per practice; linear acceleration; rotational acceleration
Mesh:
Year: 2018 PMID: 29651910 PMCID: PMC6600826 DOI: 10.1123/jab.2017-0207
Source DB: PubMed Journal: J Appl Biomech ISSN: 1065-8483 Impact factor: 1.833