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Using susceptibility-weighted imaging (SWI), researchers have identified microstructural changes in the brains of male and female college-level ice hockey players that could be due to concussive or subconcussive trauma. Until now, SWI has been used to detect signs of more severe cases of traumatic brain injury (TBI). This is the first time SWI has been used to detect signs of concussion (or mild TBI), and the first time it has been used to detect changes in the brain prospectively over an entire sports season in athletes of both sexes. The researchers, hailing from several institutions,1 describe and discuss their findings in "Hockey Concussion Education Project, Part 1. Susceptibility-weighted imaging study in male and female ice hockey players over a single season. Clinical article," by Karl G. Helmer and colleagues, published online, ahead of print, in the Journal of Neurosurgery. Two additional papers from the Hockey Concussion Education Project (HCEP) on imaging techniques used to detect and follow concussion's effects are also published.2
Susceptibility-weighted imaging (SWI) is a high-resolution three-dimensional gradient-echo magnetic resonance imaging (MRI) technique that is particularly sensitive to the presence of blood and blood-breakdown products. SWI can be used to detect cerebral microbleeds, which are small hemorrhages that appear hypointense (contrasting to the appearance of other parts of the brain) on T2*-weighted magnetic resonance images. These microbleeds are often the result of traumatic brain injuries (TBIs). Until now SWI has been used to detect microbleeds larger than 5 millimeters - often a sign of severe TBI. In this study, Helmer and colleagues used SWI to detect clusters of much smaller cerebral microbleeds - ones that are too small to be seen with the naked eye but could represent acute and chronic injuries to the brain due to concussion or subconcussive events.
The authors report findings in college-level ice hockey players (25 men and 20 women) who initially agreed to participate in the study. These results document the innovative SWI analysis of the participating athletes prospectively during the hockey season, including pre- and post-season testing. Some of these athletes reported a history of concussion prior to the study period and some reported receiving no such injuries. During the season, 5 male and 6 female athletes sustained concussions that were identified and diagnosed by independent (study) medical specialists that attended each game. These athletes underwent additional SWI at 72 hours, 2 weeks, and 2 months after their injuries as well as serial clinical and neuropsychological evaluations. The researchers identified small clusters of hypointensity, which can be related to concussion (mild TBI), on SWIs obtained at time points in all participants. To compare the extent of these hypointense regions within and between individual athletes and groups of athletes, the researchers calculated a hypointensity burden (HIB) metric for each athlete at each SWI time point.
Helmer and colleagues report no significant change in the HIB value between the beginning and end of the hockey season in either male or female athletes who did not sustain a concussion. When the researchers compared HIB values in nonconcussed athletes according to sex, however, they did identify significant differences both at the beginning and end of the season, with male athletes having significantly higher mean HIB values than female athletes at both time points.
Among the athletes who did sustain a concussion during the season, the researchers report a statistically significant difference between the HIB value determined at the beginning of the season and that determined 2 weeks after concussive injury in male athletes and a similar - albeit not significant - difference in the HIB value during the same period in female athletes. These changes in HIB values point toward damage sustained at the time of impact as well and may indicate later effects of concussion. It is not unusual for a TBI to produce a two-pronged effect: immediate damage from the impact and secondary damage from injury-induced metabolic changes in the brain. In concussed athletes, the researchers also identified a difference in HIB values between the sexes, with male athletes having higher mean HIB values than female athletes at all SWI time points throughout the season.
The authors note that not all clusters of hypointensity seen on susceptibility-weighted images may represent small microbleeds; some may prove to be false-positive findings. However, given changes in the HIB metric following concussion, the researchers believe that SWI may be a useful diagnostic tool in detecting the effects of concussive impacts over time.
As to the differences in the HIB metric between the sexes, the researchers hypothesize various reasons why this occurred, including the possibility that the male athletes may have accumulated more extensive injuries from pre-study concussive and subconcussive impacts. Additional studies in a greater number of participants are called for, because these may lead to a clearer description of why the HIB metric differed between the sexes in this study.
In summarizing the value of SWI for detecting injuries due to concussion in athletes participating in contact sports, the researchers state: "Data acquired using this method could be used for the monitoring of players throughout their careers and could lead to improved diagnoses and return-to-play guidelines."
When asked to comment on the importance of this study, Dr. Paul Echlin, senior co-author and primary HCEP investigator in this study, stated, "This study contributes to converging objective evidence concerning the acute and chronic effects of repetitive brain injury in the sports. Although future studies are warranted to further validate these initial findings (as well those found in the two accompanying HCEP studies), a cultural shift must be considered toward both the permitted violence that underlies many of the sport-related brain injuries and the high incidence of head impacts that occur in the games which our children play."
Helmer KG, Pasternak O, Fredman E, Preciado RI, Koerte IK, Sasaki T, Mayinger M, Johnson AM, Holmes JD, Forwell LA, Skopelja EN, Shenton ME, Echlin PS: Hockey Concussion Education Project, Part 1. Susceptibility-weighted imaging study in male and female ice hockey players over a single season. Clinical article. Journal of Neurosurgery, published online, ahead of print, February 4, 2014; DOI: 103171/2013.12.JNS132093.
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 for this work was provided to the HCEP (Hockey Concussion Education Project) and Dr. Echlin by the Ontario Trillium Foundation, the Dave Irwin Foundation for Brain Injury, the Ontario Neurotrauma Foundation, Air Canada, The Ontario Ministry of Health and Long-Term Care, The Ontario Ministry of Tourism, Culture and Sport, and The Ontario Ministry of Education. This work was partially funded by grants from the National Institutes of Health (NIH; P41RR013218, P41EB015902, R01MH074794), the Department of Defense (X81XWH-07-CC-CSDoD), and a VA merit grant. Dr. Pasternak was partially supported by a NARSAD (National Alliance for Research on Schizophrenia and Depression) Young Investigator grant from the Brain & Behavior Research Foundation. Dr. Koerte is supported by the Else Kröner-Fresenius Stiftung, Germany. Dr. Sasaki is supported by the Strategic Young Researcher Overseas Visits Program for Accelerating Brain Circulation from the Japan Society for the Promotion of Science. Mr. Mayinger is supported by the Petraeic Legate Foundation. Dr. Shenton is a consultant on an NIH grant to the State University of New York on velocardiofascial syndrome, and on a grant supported by the Henry Jackson Foundation.
1The authors of this paper are affiliated with the following institutions: Massachusetts General Hospital/Massachusetts Institute of Technology/Harvard Medical School Athinoula A. Martinos Center for Biomedical Imaging (Helmer, Presciado); Brigham and Women's Hospital, Harvard Medical School (Pasternak, Fredman, Koerte, Sasaki, Mayinger, Shenton); Ludwig-Maximilians-University (Koerte, Mayinger); Tokyo Medical and Dental University Graduate School (Sasaki); The University of Western Ontario (Johnson, Holmes, Forwell); Indiana University, (Skopelja); VA Boston Healthcare System (Shenton); and The Elliott Sports Medicine Clinic (Echlin).
2Two related reports from the Hockey Concussion Education Project are published in the Journal of Neurosurgery. These are:
Pasternak O, Koerte IK, Bouix S, Fredman E, Sasaki T, Mayinger M, Helmer KG, Johnson AM, Holmes JD, Forwell LA, Skopelja EN. Shenton ME, Echlin PS: Hockey Concussion Education Project, Part 2. Microstructural white matter alterations in acutely concussed ice hockey players: a longitudinal free-water MRI study. Clinical article. Journal of Neurosurgery, published online, ahead of print, February 4, 2014; DOI: 103171/2013.12.JNS132090.
Sasaki T, Pasternak O, Mayinger M, Muehlmann M, Savadjiev P, Bouix S, Kubicki M, Fredman E, Dahlben B, Helmer KG, Johnson AM, Holmes JD, Forwell LA, Skopelja EN, Shenton ME, Echlin PS, Koerte IK: Hockey Concussion Education Project, Part 3. White matter microstructure in ice hockey players with a history of concussion: a diffusion tensor imaging study. Clinical article. Journal of Neurosurgery, published online, ahead of print, February 4, 2014; DOI: 103171/2013.12.JNS132092.
Article adapted by Medical News Today from original press release. Click 'references' tab above for source.
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