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The Influence of Hard Hat Design Features on Head Acceleration Attenuation

Arthur Alves Dos Santos, James Sorce, Alexandra Schonning, and Grant Bevill

head kinematics in football impacts: an injury risk function for concussion . Ann Biomed Eng . 2012 ; 40 ( 1 ): 1 – 13 . PubMed ID: 22012081 doi:10.1007/s10439-011-0392-4 22012081 10.1007/s10439-011-0392-4 32. Zhang L , Yang KH , King AI . A proposed injury threshold for mild traumatic brain

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Validation of a Noninvasive System for Measuring Head Acceleration for Use during Boxing Competition

Jonathan G. Beckwith, Jeffrey J. Chu, and Richard M. Greenwald

Although the epidemiology and mechanics of concussion in sports have been investigated for many years, the biomechanical factors that contribute to mild traumatic brain injury remain unclear because of the difficulties in measuring impact events in the field. The purpose of this study was to validate an instrumented boxing headgear (IBH) that can be used to measure impact severity and location during play. The instrumented boxing headgear data were processed to determine linear and rotational acceleration at the head center of gravity, impact location, and impact severity metrics, such as the Head Injury Criterion (HIC) and Gadd Severity Index (GSI). The instrumented boxing headgear was fitted to a Hybrid III (HIII) head form and impacted with a weighted pendulum to characterize accuracy and repeatability. Fifty-six impacts over 3 speeds and 5 locations were used to simulate blows most commonly observed in boxing. A high correlation between the HIII and instrumented boxing headgear was established for peak linear and rotational acceleration (r 2 = 0.91), HIC (r 2 = 0.88), and GSI (r 2 = 0.89). Mean location error was 9.7 ± 5.2°. Based on this study, the IBH is a valid system for measuring head acceleration and impact location that can be integrated into training and competition.

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A Six Degree of Freedom Head Acceleration Measurement Device for Use in Football

Steven Rowson, Jonathan G. Beckwith, Jeffrey J. Chu, Daniel S. Leonard, Richard M. Greenwald, and Stefan M. Duma

The high incidence rate of concussions in football provides a unique opportunity to collect biomechanical data to characterize mild traumatic brain injury. The goal of this study was to validate a six degree of freedom (6DOF) measurement device with 12 single-axis accelerometers that uses a novel algorithm to compute linear and angular head accelerations for each axis of the head. The 6DOF device can be integrated into existing football helmets and is capable of wireless data transmission. A football helmet equipped with the 6DOF device was fitted to a Hybrid III head instrumented with a 9 accelerometer array. The helmet was impacted using a pneumatic linear impactor. Hybrid III head accelerations were compared with that of the 6DOF device. For all impacts, peak Hybrid III head accelerations ranged from 24 g to 176 g and 1,506 rad/s2 to 14,431 rad/s2. Average errors for peak linear and angular head acceleration were 1% ± 18% and 3% ± 24%, respectively. The average RMS error of the temporal response for each impact was 12.5 g and 907 rad/s2.

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Drop Landing Biomechanics in Individuals With and Without a Concussion History

Eric J. Shumski, Tricia M. Kasamatsu, Kathleen S. Wilson, and Derek N. Pamukoff

. 2017 ; 47 ( 5 ): 1003 – 1010 . PubMed ID: 27544666 doi:10.1007/s40279-016-0607-9 10.1007/s40279-016-0607-9 27544666 28. Sosnoff JJ , Broglio SP , Shin S , Ferrara MS . Previous mild traumatic brain injury and postural-control dynamics . J Athl Train . 2011 ; 46 ( 1 ): 85 – 91 . PubMed ID

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Reliability and Minimal Detectable Change for a Smartphone-Based Motor-Cognitive Assessment: Implications for Concussion Management

David R. Howell, Corrine N. Seehusen, Mathew J. Wingerson, Julie C. Wilson, Robert C. Lynall, and Vipul Lugade

Our purpose was to investigate the reliability and minimal detectable change characteristics of a smartphone-based assessment of single- and dual-task gait and cognitive performance. Uninjured adolescent athletes (n = 17; mean age = 16.6, SD = 1.3 y; 47% female) completed assessments initially and again 4 weeks later. The authors collected data via an automated smartphone-based application while participants completed a series of tasks under (1) single-task cognitive, (2) single-task gait, and (3) dual-task cognitive-gait conditions. The cognitive task was a series of continuous auditory Stroop cues. Average gait speed was consistent between testing sessions in single-task (0.98, SD = 0.21 vs 0.96, SD = 0.19 m/s; P = .60; r = .89) and dual-task (0.92, SD = 0.22 vs 0.89, SD = 0.22 m/s; P = .37; r = .88) conditions. Response accuracy was moderately consistent between assessments in single-task standing (82.3% accurate, SD = 17.9% vs 84.6% accurate, SD = 20.1%; P = .64; r = .52) and dual-task gait (89.4% accurate, SD = 15.9% vs 85.8% accurate, SD = 20.2%; P = .23; r = .81) conditions. Our results indicate automated motor-cognitive dual-task outcomes obtained within a smartphone-based assessment are consistent across a 1-month period. Further research is required to understand how this assessment performs in the setting of sport-related concussion. Given the relative reliability of values obtained, a smartphone-based evaluation may be considered for use to evaluate changes across time among adolescents, postconcussion.

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Career Head Impact Exposure Profile of Canadian University Football Players

Jeffrey S. Brooks, Kody R. Campbell, Wayne Allison, Andrew M. Johnson, and James P. Dickey

professional football: reconstruction of game impacts and injuries . Neurosurgery . 2003 ; 53 ( 4 ): 799 – 814 . PubMed ID: 14519212 doi:10.1093/neurosurgery/53.3.799 14519212 10.1093/neurosurgery/53.3.799 12. Zhang L , Yang KH , King AI . A proposed injury threshold for mild traumatic brain injury

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Validity of an Automated Balance Error Scoring System

Stephen M. Glass, Alessandro Napoli, Elizabeth D. Thompson, Iyad Obeid, and Carole A. Tucker

Static postural control assessed during quiet standing is commonly used as an indicator of injury and recovery status in cases of suspected concussion or mild traumatic brain injury. 1 , 2 Quantitative assessment of postural control is perhaps best achieved through laboratory-grade instrumentation

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The Influence of Neck Stiffness on Head Kinematics and Maximum Principal Strain Associated With Youth American Football Collisions

Janie Cournoyer, David Koncan, Michael D. Gilchrist, and T. Blaine Hoshizaki

, Viano D , Yang K . The role of neck muscle activities on the risk of mild traumatic brain injury in American football . J Biomed Eng . 2017 ; 139 ( 10 ): 1 – 7 . PubMed ID: 28753688 doi:10.1115/1.4037399 25. Rousseau P , Post A , Gilchrist M , Hoshizaki T . Estimating the influence

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Head Kinematics in Youth Ice Hockey by Player Speed and Impact Direction

Abigail G. Swenson, Bari A. Schunicht, Nicholas S. Pritchard, Logan E. Miller, Jillian E. Urban, and Joel D. Stitzel

American football helmets using brain deformation metrics associated with concussion . Mater Des . 2013 ; 45 : 653 – 662 . doi:10.1016/j.matdes.2012.09.017 10.1016/j.matdes.2012.09.017 21. Zhang L , Yang KH , King AI . A proposed injury threshold for mild traumatic brain Injury . J Biomech Eng

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Impaired Neuromotor Control During Gait in Concussed Adolescents—A Frequency Analysis

Divya Jain, Valentina Graci, Megan E. Beam, Christina L. Master, Laura A. Prosser, Catherine C. McDonald, and Kristy B. Arbogast

-concussive symptoms in children with mild traumatic brain injury . Neuropsychology . 2010 ; 24 ( 2 ): 148 – 159 . doi: 10.1037/A0018112 46. Zemek R , Barrowman N , Freedman SB , et al . Clinical risk score for persistent postconcussion symptoms among children with acute concussion in the ED . JAMA