December Issue of Neurosurgical Focus Explores Association Between Contact Sports and Concussion
Embargo expired: 30-Nov-2012 12:00 AM EST
Source Newsroom: American Association of Neurological Surgeons (AANS)
Newswise — CHARLOTTESVILLE, Va. and ROLLING MEADOWS, Ill. (Nov. 30, 2012) — The Journal of Neurosurgery (JNS) Publishing Group, the scholarly journal division of the American Association of Neurological Surgeons, has dedicated the December 2012 issue of Neurosurgical Focus to Concussion: Pathophysiology & Sequelae (http://thejns.org/toc/foc/33/6). Guest editors Paul S. Echlin, MD (Elliott Sports Medicine Clinic, Burlington, ON, Canada); M. Sean Grady, MD, FAANS (University of Pennsylvania, Philadelphia, PA); and Shelly D. Timmons, MD, PhD, FAANS (Geisinger Medical Center/Neurosurgery, Danville, PA), selected 11 articles for this issue that focus on methods of diagnosing concussion and evaluating its consequences, structural and functional changes that can occur in the brain following concussion, and changing attitudes and legislation concerning sports that traditionally carry risks of brain injury.
Concussion, also known as mild traumatic brain injury (TBI), has been called a “silent epidemic” because the event and its consequences, such as cognitive and behavioral changes, may be subtle and are not always recognized.
In the first four articles of the December issue — a four-part series offering the results of “a prospective study of physician-observed concussion during a varsity university hockey season” — Dr. Echlin and colleagues offer new findings of the Hockey Education Concussion Project (HECP), which focus on concussions sustained by male and female college hockey players in Canada. In November 2010, these researchers presented findings from their groundbreaking study of concussion in junior-league hockey players in Neurosurgical Focus (http://thejns.org/toc/foc/29/5). Today they offer fresh findings on the incidence of concussion during hockey games, neuropsychological changes following concussion, and changes in hockey players’ white matter and brain metabolism over the course of the hockey season. The following universities contributed to the new study: University of Western Ontario, Harvard University, University of Montreal, University of British Columbia, and Indiana University. In this study, Echlin and colleagues added advanced magnetic resonance imaging (MRI) to neuropsychological tests to follow players’ physiological and mental health over an entire season. They administered the MRI studies and neuropsychological assessments (ImPACT and SCAT2) to college hockey players at the beginning of the season, after a diagnosed concussion, and at the end of the season. In addition, physician and non-physician observers were present at games, where they could recognize signs and symptoms of concussion on the spot.
The incidences of game-related concussions identified by Echlin and colleagues in the present series, although lower than stated in their 2010 study, were three times higher in male hockey players and five times higher in female players than those found by other authors. The incidence in female players was substantially higher than that in male players: 14.93 vs. 7.50 per 1,000 athlete exposures during the regular season games. The authors discuss some findings that led them to believe that hockey-associated concussion is underreported and other findings that indicate that the current definition of concussion may need to be reexamined. The authors also describe their experiences in conducting the study during hockey games, working with coaches, trainers, and players. Cultural attitudes about hockey and reticence on the part of team members, leaders, and others to report concussion events are discussed.
An overview of what is known about the forces involved in the primary phase of concussion, as well as immediate and secondary cellular events that lead to the secondary phase of this TBI is provided by Matthew Dashnaw, MD; Anthony Petraglia, MD; and Julian Bailes, MD, FAANS. These authors point out that a thorough understanding of the basic processes of concussion and subconcussion must exist in order to prevent and treat the consequences of these injuries.
Scott Zuckerman, MD, and colleagues focus on more severe sequelae of sports-related concussions such as subarachnoid, epidural, and subdural hemorrhage, as well as malignant cerebral edema — medical emergencies frequently requiring the services of a neurosurgeon. These authors conducted PubMed searches on structural brain injuries arising from sports-related concussions and found 40 articles describing individual cases and small patient series. The lack of prospective cohort series led the authors to suggest the creation of a prospective registry of these injuries, which would be of great benefit to neurosurgeons dealing with severe consequences of concussion.
A review of the literature on the associations between biomechanical parameters and concussions sustained by helmeted players in American football is reported by Jonathan Forbes, MD, and coworkers. They state that the existing data are insufficient to predict the occurrence of concussion based on biomechanical data and suggest that further research is necessary.
In a separate study, patients who sustained a concussion from a motor vehicle accident or a sports mishap and healthy volunteers performed working memory tasks while electrophysiological testing measured event-related potential (ERP) waves in their brains. Nadia Gosselin and colleagues found cerebral dysfunction in the patients with concussions, as indicated by both poor performance on the memory tasks and abnormal ERP waves; the abnormal ERP waves were identified even in patients in the non-acute stage of TBI. The same group of researchers also contributed another paper in which they review long-term alterations in cognitive and motor function following sports-related concussion, which were detected using modern brain investigation techniques. In the second paper, the authors provide new insights into the neuropathophysiology of sports-related concussion.
Magnetoencephalographic virtual recording during language/spatial tasks was examined by Matthew Tormenti, MD, and colleagues as a potential diagnostic tool for concussion. Based on their findings, the authors suggest that with some refinements, magnetoencephalographic virtual recording may become a useful noninvasive diagnostic tool.
The status of sport-related concussion legislation in the United States is discussed by Krystal Tomei, MD, MPH, et al. These researchers compared state laws regarding concussion education, criteria for removal from play, and which individuals are allowed to evaluate a player and clear this individual for return to play. The authors found that concussion legislation has been passed in 43 states and the District of Columbia, and is pending in another four states.
Accompanying the December 2012 issue of Neurosurgical Focus is a fascinating podcast discussion between Drs. Paul Echlin and Anthony Petraglia. Some topics covered include the basic physics of head injury in athletes; primary and secondary injuries sustained in concussion; the value of laboratory investigations to the advancement of physician’s understanding of concussion; the importance of educating team players, trainers, coaches, and parents in the prevention and treatment of concussion; and how both physicians became interested in sports-related head injuries.
Neurosurgical Focus, Vol. 33, No. 6, published online Nov. 30, 2012 (http://thejns.org/toc/foc/33/6).
Disclosure: Funding information and potential conflicts of interest are listed at the end of each article.
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Neurosurgical Focus, an online-only, monthly, peer-reviewed journal, covers a different neurosurgery-related topic in depth each month and is available free to all readers at www.thejns.org. Enhanced by color images and video clips, each issue constitutes a state-of-the-art “textbook chapter” in the field of neurosurgery. Neurosurgical Focus is one of four monthly journals published by the Journal of Neurosurgery Publishing Group, the scholarly journal division of the American Association of Neurological Surgeons (www.AANS.org), an association dedicated to advancing the specialty of neurological surgery in order to promote the highest quality of patient care.
Founded in 1931 as the Harvey Cushing Society, the American Association of Neurological Surgeons (AANS) is a scientific and educational association with more than 8,200 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 concerned with the prevention, diagnosis, treatment and rehabilitation of disorders that affect the entire nervous system including the spinal column, spinal cord, brain and peripheral nerves. For more information, visit www.AANS.org.