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Citation |
Villanueva NC, Chun IKH, Fujiwara AS, Leibovitch ER, Yamamoto BE, Yamamoto LG. Hawaii J. Health Soc. Welf. 2024; 83(1): 4-9. |
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Copyright |
(Copyright © 2024, University Health Partners of Hawai'i) |
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DOI |
unavailable |
PMID |
38223462 |
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PMCID |
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Abstract |
American football has the highest rate of concussions in United States high school sports. Within American football, impact against the playing surface is the second-most common mechanism of injury. The objective of this study was to determine if there is a difference in impact deceleration between natural grass and synthetic turf high school football fields. A Century Body Opponent Bag (BOB) manikin was equipped with a Riddell football helmet and 3 accelerometers were placed on the forehead, apex of the head, and right ear. The manikin was dropped from a stationary position onto its front, back, and left side onto natural grass (n = 10) and synthetic turf (n = 9) outdoor football fields owned and maintained by public and private institutions on O'ahu, Hawai'i. Data was collected on 1,710 total drops. All accelerometers in forward and backward falls, and 1 accelerometer in side falls showed significantly greater impact deceleration on synthetic turf compared to the natural grass surfaces (P <.05). The results of this study provide evidence-based rationale to inform youth sports policies, particularly those aimed at injury prevention through safer playing environments and equipment. Language: en |
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Keywords |
Adolescent; Humans; Schools; United States; prevention; Sports; Deceleration; pediatrics; *Brain Concussion; *Football/injuries; biomechanics; concussions; football; high school; Poaceae |