On-Field Measurement of Head Impacts in Youth Football: Characterizing High Magnitude Impacts and Assessing Balance Outcomes

The research presented in this thesis focuses on head impact exposure in youth football. The on-field portion of this research investigated high magnitude head impacts that youth football players experience in games and practices. With previously validated data collection methods, linear and rotational head accelerations from head impacts were collected. Over the course of two seasons, 79 total player-seasons resulted in over 13,000 impacts. A small subset of these, 979 impacts exceeding 40 g, represented the focus of this research as these impacts pose the greatest risk of injury to individuals. Some tackling drills in practice were found to have higher acceleration severities than those observed in games. How practice activities are conducted also contributes towards the overall high magnitude head impact exposure for practice, not just the practice drill itself. Within games, players who are running backs and linebackers played most frequently and experienced higher magnitude impacts more often than their teammates. Data were also collected from all players off the field. Each player completed balance assessments at the beginning and end of the season to allow for comparison, even in absence of a clinically-diagnosed concussion. Current balance assessments were observed to fall short for detecting postural control differences in this youth population. Modifications to these assessments were recommended that might allow for further insights. Research presented in this thesis will inform youth football organizations as they continue to develop strategies to enhance player safety and mitigate head impact exposure.

Keywords: Concussion; Biomechanics; Acceleration; Pediatrics; Balance

Year	Entry
2013	Rowson S, Duma SM. Brain injury prediction: assessing the combined probability of concussion using linear and rotational head acceleration. Ann Biomed Eng. May 2013;41(4):873-882.
2012	Rowson S, Duma SM, Beckwith JG, Chu JJ, Greenwald RM, Crisco JJ, Brolinson PG, Duhaime A-C, McAllister TW, Maerlender AC. Rotational head kinematics in football impacts: an injury risk function for concussion. Ann Biomed Eng. January 2012;40(1):1-13.
2015	Cobb BR. Laboratory and Field Studies in Sports-Related Brain Injury [PhD thesis]. Virginia Polytechnic Institute and State University; March 25, 2015.
2006	Brolinson PG, Manoogian S, McNeely D, Goforth M, Greenwald R, Duma S. Analysis of linear head accelerations from collegiate football impacts. Curr Sports Med Rep. February 2006;5(1):23-28.
2006	Manoogian S, McNeely D, Duma S, Brolinson G, Greenwald R. Head acceleration is less than 10 percent of helmet acceleration in football impacts. In: Biomedical Sciences Instrumentation. Vol 48. Proceedings of the Rocky Mountain Bioengineering Symposium & International ISA Biomedical Sciences Instrumentation Symposium; April 7-9, 2006; Terre Haute, IN.383-388.
2010	Broglio S, Schnebel B, Sosnoff J, Shin S, Feng X, He Z, Zimmerman J. Biomechanical properties of concussions in high school football. Med Sci Sports Exer. 2010;42(11):2064-2071.
2012	Broglio SP, Surma T, Ashton-Miller JA. High school and collegiate football athlete concussions: a biomechanical review. Ann Biomed Eng. January 2012;40(1):37-46.
2009	Broglio SP, Sosnoff JJ, Shin S, He X, Alcaraz C, Zimmerman J. Head impacts during high school football: a biomechanical assessment. J Athl Train. August 2009;44(4):342-349.
2010	Crisco JJ, Fiore R, Beckwith JG, Chu JJ, Brolinson PG, Duma S, McAllister TW, Duhaime A-C, Greenwald RM. Frequency and location of head impact exposures in individual collegiate football players. J Athl Train. November–December 2010;45(6):549-559.
2011	Crisco JJ, Wilcox BJ, Beckwith JG, Chu JJ, Duhaime A-C, Rowson S, Duma SM, Maerlender AC, McAllister TW, Greenwald RM. Head impact exposure in collegiate football players. J Biomech. October 13, 2011;44(15):2673.
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2007	Mihalik JP, Bell DR, Marshall SW, Guskiewicz KM. Measurement of head impacts in collegiate football players: an investigation of positional and event-type differences. Neurosurgery. December 2007;61(6):1229-1235.
2007	Schnebel B, Gwin JT, Anderson S, Gatlin R. In vivo study of head impacts in football: a comparison of National Collegiate Athletic Association Division I versus high school impacts. Neurosurgery. March 2007;60(3):490-496.
2009	Rowson S, Brolinson G, Goforth M, Dietter D, Duma S. Linear and angular head acceleration measurements in collegiate football. J Biomech Eng. June 2009;131(6):061016.
2012	Beckwith JG, Greenwald RM, Chu JJ. Measuring head kinematics in football: correlation between the head impact telemetry system and Hybrid III headform. Ann Biomed Eng. January 2012;40(1):237-248.
2003	Guskiewicz KM, McCrea M, Marshall SW, Cantu RC, Randolph C, Barr W, Onate JA, Kelly JP. Cumulative effects associated with recurrent concussion in collegiate football players: the NCAA concussion study. JAMA. November 19, 2003;290(19):2549-2555.
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2013	Jadischke R, Viano DC, Dau N, King AI, McCarthy J. On the accuracy of the Head Impact Telemetry (HIT) System used in football helmets. J Biomech. September 3, 2013;46(13):2310.
2004	Crisco JJ, Chu JJ, Greenwald RM. An algorithm for estimating acceleration magnitude and impact location using multiple nonorthogonal single-axis accelerometers. J Biomech Eng. December 2004;126(6):849-854.
2011	Duma SM, Rowson S. Past, present, and future of head injury research. Exerc Sport Sci Rev. January 2011;39(1):2-3.

Year

Entry

2013

Rowson S, Duma SM. Brain injury prediction: assessing the combined probability of concussion using linear and rotational head acceleration. Ann Biomed Eng. May 2013;41(4):873-882.

2012

Rowson S, Duma SM, Beckwith JG, Chu JJ, Greenwald RM, Crisco JJ, Brolinson PG, Duhaime A-C, McAllister TW, Maerlender AC. Rotational head kinematics in football impacts: an injury risk function for concussion. Ann Biomed Eng. January 2012;40(1):1-13.

2015

Cobb BR. Laboratory and Field Studies in Sports-Related Brain Injury [PhD thesis]. Virginia Polytechnic Institute and State University; March 25, 2015.

2006

Brolinson PG, Manoogian S, McNeely D, Goforth M, Greenwald R, Duma S. Analysis of linear head accelerations from collegiate football impacts. Curr Sports Med Rep. February 2006;5(1):23-28.

2006

Manoogian S, McNeely D, Duma S, Brolinson G, Greenwald R. Head acceleration is less than 10 percent of helmet acceleration in football impacts. In: Biomedical Sciences Instrumentation. Vol 48. Proceedings of the Rocky Mountain Bioengineering Symposium & International ISA Biomedical Sciences Instrumentation Symposium; April 7-9, 2006; Terre Haute, IN.383-388.