• J Athl Train · Jul 2009

    Head impacts during high school football: a biomechanical assessment.

    • Steven P Broglio, Jacob J Sosnoff, SungHoon Shin, Xuming He, Christopher Alcaraz, and Jerrad Zimmerman.
    • Department of Kinesiology and Community Health, University of Illinois at Urbana-Champaign, Champaign, IL 61801, USA. broglio@uiuc.edu
    • J Athl Train. 2009 Jul 1;44(4):342-9.

    ContextLittle is known about the impact biomechanics sustained by players during interscholastic football.ObjectiveTo characterize the location and magnitude of impacts sustained by players during an interscholastic football season.DesignObservational design.SettingOn the field.Patients Or Other ParticipantsHigh school varsity football team (n = 35; age = 16.85 +/- 0.75 years, height = 183.49 +/- 5.31 cm, mass = 89.42 +/- 12.88 kg).Main Outcome Measure(S)Biomechanical variables (linear acceleration, rotational acceleration, jerk, force, impulse, and impact duration) related to head impacts were categorized by session type, player position, and helmet impact location.ResultsDifferences in grouping variables were found for each impact descriptor. Impacts occurred more frequently and with greater intensity during games. Linear acceleration was greatest in defensive linemen and offensive skill players and when the impact occurred at the top of the helmet. The largest rotational acceleration occurred in defensive linemen and with impacts to the front of the helmet. Impacts with the highest-magnitude jerk, force, and impulse and shortest duration occurred in the offensive skill, defensive line, offensive line, and defensive skill players, respectively. Top-of-the-helmet impacts yielded the greatest magnitude for the same variables.ConclusionsWe are the first to provide a biomechanical characterization of head impacts in an interscholastic football team across a season of play. The intensity of game play manifested with more frequent and intense impacts. The highest-magnitude variables were distributed across all player groups, but impacts to the top of the helmet yielded the highest values. These high school football athletes appeared to sustain greater accelerations after impact than their older counterparts did. How this finding relates to concussion occurrence has yet to be elucidated.

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