CHARLOTTESVILLE, VA (AUGUST 23, 2016). Seventy percent of football players in the US are youths 9 to 14 years of age, yet most data on head impacts sustained in this sport have been from high school, college, and professional football players. This makes it difficult to make informed decisions on how best to structure practices and games to protect younger players from concussion. A new study reported in the Journal of Neurosurgery: Pediatrics will hopefully change that. It focuses on these younger players and the head impacts they sustain throughout the football season and offers suggestions to reduce the risk of high-magnitude head impacts.
Researchers from the Department of Biomedical Engineering and Mechanics at Virginia Tech (Eamon T. Campolettano, BS, Steven Rowson, PhD, and Stefan M. Duma, PhD) used biomechanical sensors to investigate exposure to head impacts in 9- to 11-year-olds engaged in a youth football program. The authors focused on two teams comprising a total of 34 players. Inside each youth's football helmet was an accelerometer array that recorded all head accelerations associated with head impacts and sent this information to a nearby computer. Videos of practice sessions and games were used to verify these head impacts. The object of the study was to identify specific football drills that result in high-magnitude head impacts (measured as head accelerations greater than 40g). The findings of the study are reported in the article "Drill-specific head impact exposure in youth football practice" (published online today in the Journal of Neurosurgery: Pediatrics).
Data were collected throughout an entire youth football season consisting of 55 practice sessions and 10 games. In 408 instances, the authors identified head acceleration measuring 40g or higher, indicating a high-magnitude impact. One hundred eighteen (118) head impacts exceeded 60g acceleration and 59 impacts exceeded 70g.
Seventy percent (314) of these high-magnitude head impacts occurred during practice sessions--a finding unlike that seen in older football players, for whom high-magnitude impacts are more often sustained during games.
Nine types of practice drills were identified: four tackling drills and five skill drills. The authors found a greater number of high-magnitude head impacts associated with tackling drills than with skill drills, even though tackling drills were conducted only half as often as offense or defense skill drills. The authors also identified a higher proportion of impacts greater than 60g in tackling drills (40%-50%) than in games (25%).
King of the Circle, a tackling drill in which a player holding the ball must rush from the middle of the circle through players guarding the circle perimeter, had the greatest rate of impacts--far higher than those of other tackling drills or games.
Although only 22% of practice sessions were spent on tackling or blocking drills, the data showed that these drills led to 86% of all high-magnitude head impacts sustained during practice. Based on their findings, the authors suggest that a 10-minute reduction of time spent on tackling and blocking drills during each practice session could reduce the number of high-magnitude head impacts by 38%. Since the very high impact rate of King of the Circle is not representative of that found in game play, the authors suggest that this drill be entirely eliminated from practice sessions.
Armed with the knowledge of which drills are more likely associated with severe head impacts as well as which drills produce greater numbers of head impacts per hour, the authors believe that coaches and league organizers can develop a practice structure that will reduce exposure to high-magnitude head impacts.
When asked about the importance of the study, Dr. Rowson said, "Ultimately, the number of concussions players sustain is related to the severity and number of head impacts that they experience. This study provides the first data describing activity-specific head impacts in youth football practices and identifies high-risk drills. This is valuable information that can enable data-driven decisions on engineering a safer sport."
Disclosure: The authors report no conflict of interest concerning the materials or methods used in this study or the findings specified in this paper.
Funding: National Institute of Neurological Disorders and Stroke (National Institutes of Health) Award No. R01NS094410.
Campolettano ET, Rowson S, and Duma SM: Drill-specific head impact exposure in youth football practice. Journal of Neurosurgery: Pediatrics, published online, ahead of print, August 23, 2016; DOI: 10.3171/2016.5.PEDS1696.
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The Journal of Neurosurgery: Pediatrics is a monthly peer-reviewed journal focused on diseases and disorders of the central nervous system and spine in children. This journal contains a variety of articles, including descriptions of preclinical and clinical research as well as case reports and technical notes. The Journal of Neurosurgery: Pediatrics is one of four monthly journals published by the JNS Publishing Group, the scholarly journal division of the American Association of Neurological Surgeons. Other peer-reviewed journals published by the JNS Publishing Group each month include the Journal of Neurosurgery, Neurosurgical Focus, and the Journal of Neurosurgery: Spine. All four journals can be accessed at http://www.
Founded in 1931 as the Harvey Cushing Society, the American Association of Neurological Surgeons (AANS) is a scientific and educational association with more than 8,300 members worldwide. The AANS is dedicated to advancing the specialty of neurological surgery in order to provide the highest quality of neurosurgical care to the public. All active members of the AANS are certified by the American Board of Neurological Surgery, the Royal College of Physicians and Surgeons (Neurosurgery) of Canada, or the Mexican Council of Neurological Surgery, AC. Neurological surgery is the medical specialty con
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