Head Impacts During High School Football: A Biomechanical Assessment

Broglio, Steven P.; Sosnoff, Jacob J.; Shin, Sunghoon; He, Xuming; Alcaraz, Christopher A.; Zimmerman, Jerrad

doi:10.4085/1062-6050-44.4.342

Cited by 239 publications

(288 citation statements)

References 24 publications

(28 reference statements)

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“…For the peak LA frequency distribution, both during the games and practice sessions, the range of 10 g ≤ X < 15 g was the most frequent, and the distributions were largely skewed towards low values, supporting previous reports [11][12][13][19][20][21][22][23][24][25] . However, the played over four 15-min quarters in the USA, it is played over four 12-min quarters in Japan, a shorter time period.…”

Section: Discussionsupporting

confidence: 86%

“…Recently, the development of HITS, which collects impact information from the acceleration sensor attached inside the helmet and the sideline response system, which transmits the data, has made it possible to collect collision data from players on actual fields [9][10][11][12][13][19][20][21][22][23][24][25][26][27][28] . However, HITS only measures LA, and RA had to be estimated 28) .…”

Section: Discussionmentioning

confidence: 99%

“…In the 2000s, many researchers started to use a headimpact telemetry system (HITS, Simbex, Lebanon NH) equipped with an acceleration sensor installed inside a Riddell (Elyria, OH) helmet to collect real-time headacceleration data during head collisions between American football players [9][10][11][12][13][19][20][21][22][23][24][25][26][27][28] . The data collected by HITS is transmitted to a PC application in real time via a sideline response system (Riddell, Chicago, IL).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Impact on the head during collisions between university American football players - focusing on the number of head impacts and linear head acceleration -

Fukuda

Koike

Miyakawa

et al. 2017

JPFSM

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The aim of this study is to understand the head impact during actual collisions between American football players from Japanese universities. The subjects of this study were 23 players who belonged to T university in the Kantoh Collegiate American Football Association Division 2. We used a Vector Mouthguard (i1 Biometrics Inc.) equipped with 6 degrees of freedom (DOF) to measure the head linear acceleration (LA) and rotational acceleration (RA) as well as the head injury criterion (HIC), impact location, and number of impacts during collisions. The average number of collisions per player during a practice and during a game was 14.3 and 15.7, respectively. In terms of positions, the ratio (1:1.3) of total number of impacts for backs to linemen in Japan is lower than that (1:3) in the USA. Both during the games and practices, the range of 10 g < X ≤ 15 g in the average peak LA values was the most frequent, and the distributions were largely skewed toward low values (p < 0.05). The medians during the games and practices were 16.77 g and 15.87 g, respectively. The number of collisions during practices in Japan was significantly higher than that in the USA. Particularly, linemen undergo more head collisions than those of backs. Another common factor is that the impact of head collision during a game is significantly higher than that during a practice. However, data on Japanese university players is limited, and further data collection should be done before determining an accurate estimate of the practical concussion risk threshold.

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Section: Discussionsupporting

confidence: 86%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Impact on the head during collisions between university American football players - focusing on the number of head impacts and linear head acceleration -

Fukuda

Koike

Miyakawa

et al. 2017

JPFSM

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“…Nearly three-quarters (74%) of the studies 6-9, 12-16, 20 15 ) and 36ms (HIC 36 ). 8,90 No study reviewed reported the Generalised Acceleration Model for Brain Injury Threshold (GAMBIT) 77,78 or the Head Impact Power (HIP) 79 in their assessment of head impact biomechanics.…”

Section: Head Impact Resultsmentioning

confidence: 99%

“…Based on the differences observed in this study, at the 14.4g threshold there could have been as many as 42% of the impacts recorded not being reported. As a result, studies 7,8,[12][13][14][15]20, 27, 33, 94, 107, 115, 119 using impact thresholds above 10g may have removed 2,100 to 206,573 impacts (see Table 2). At the 30g impact threshold it can be estimated that 80 to 85% of impacts were not reported.…”

Section: Impact Thresholdmentioning

confidence: 99%

The Influence of Head Impact Threshold for Reporting Data in Contact and Collision Sports: Systematic Review and Original Data Analysis

Hume

Gissane

et al. 2015

Sports Med

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Elastoplastic Inverse Opals as Power‐Free Mechanochromic Sensors for Force Recording

Cho

Lee

Ellerthorpe

et al. 2015

Adv Funct Materials

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Light‐weight, power‐free mechanochromic sensors that can change and record the reflective color depending on the magnitude and rate of the applied force are fabricated from inverse opals by infiltrating the colloidal crystals of silica particles with uncrosslinked SU‐8, followed by removal of the colloidal templates. The mechanical sensing range of the materials is high, 17.6–20.4 MPa. Due to elastoplastic deformation of the SU‐8 films, the deformed structures and thus colors can be locked after the removal of the load, therefore establishing a quantitative relationship between the mechanical force and optical responses. In comparison, mechanochromic photonic gels reported in the literature typically detect force in the range of 10–100 kPa; once the load is removed, the structure and color return back to the original ones. The mechanochromic sensors are highly sensitive: the ratio of shift in the stopband wavelength to the change in applied strain is up to 5.7 nm per percent, the highest among literature. Comparison of finite element simulations with experiments confirms the elastoplastic deformation of the films and highlights that reconfiguration of pore shape under compression plays a key role in the mechanochromic response.

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Head Impacts During High School Football: A Biomechanical Assessment

Cited by 239 publications

References 24 publications

Impact on the head during collisions between university American football players - focusing on the number of head impacts and linear head acceleration -

Impact on the head during collisions between university American football players - focusing on the number of head impacts and linear head acceleration -

The Influence of Head Impact Threshold for Reporting Data in Contact and Collision Sports: Systematic Review and Original Data Analysis

Elastoplastic Inverse Opals as Power‐Free Mechanochromic Sensors for Force Recording

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