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Differences in Soccer Heading Injuries between Male and Female Soccer Players May Be Due to Equal Ball Weight Causing Differences in Relative Impacts

2019; Radiological Society of North America; Volume: 290; Issue: 2 Linguagem: Inglês

10.1148/radiol.2018182384

1527-1315

Arve Vorland Pedersen, Ragna Stalsberg,

Sports injuries and prevention

HomeRadiologyVol. 290, No. 2 Previous CommunicationsFree AccessLetters to the EditorDifferences in Soccer Heading Injuries between Male and Female Soccer Players May Be Due to Equal Ball Weight Causing Differences in Relative ImpactsArve Vorland Pedersen*, Ragna Stalsberg† Arve Vorland Pedersen*, Ragna Stalsberg† Author AffiliationsDepartment of Neuromedicine and Movement Science* andDepartment of Circulation and Medical Imaging,† Faculty of Medicine and Health Sciences, Norwegian University of Science and Technology, PO Box 8905, N-7491 Trondheim, Norwaye-mail: [email protected]Arve Vorland Pedersen*Ragna Stalsberg† Published Online:Jan 8 2019https://doi.org/10.1148/radiol.2018182384MoreSectionsPDF ToolsImage ViewerAdd to favoritesCiteTrack CitationsPermissionsReprints ShareShare onFacebookTwitterLinked In Editor:We read with great interest the article by Mr Rubin and colleagues, “MRI-defined White Matter Microstructural Alteration Associated with Soccer Heading Is More Extensive in Women than Men,” which was published in the November 2018 issue of Radiology (1). Their findings are important, and we applaud the focus on sex differences.Having said that, we would like to suggest a possible explanation of the results. Mr Rubin and colleagues suggest that “Perhaps men and women head the ball differently…” or that “…women may be more sensitive than men to the effects of heading….” Differences, they argue, are not due to different exposures to headings as there was “similar levels of exposure” across the sexes. Although this was certainly true for number of reported headings, the relative exposure may not be as equal if we consider the following factors.The standard-sized soccer ball for adults weighs 410–450 g (2), and this is the same for both sexes regardless of physiologic differences. We would argue that the relative impact due to sex differences in body size (notably, head mass) and neck anthropometry would be important for explaining the results of Mr Rubin and colleagues.Schneider and Zernicke (3) modeled relative impacts of head-ball collisions for different head masses and concluded that equipment should be scaled for children (ie, a lighter ball should be used) due to their smaller head mass to reduce injury risk. The head mass of women is 15% smaller than that of men (4).Furthermore, women’s neck muscles are weaker, with the most relevant difference for headings probably being the 50% isometric flexion strength difference (4). Eckner et al (5) showed that neck strength is important for reducing the effects of impacts and, thus, an athlete’s risk of concussion. In line with their findings, Tierney et al (4) found that female players exhibited greater head acceleration than male players when heading the same (450-g) ball at equal velocities.The fact that women have more serious head injuries from a similar number of impacts suggests in itself that the ball weight should receive more attention. Thus, we would strongly promote the relative impact due to ball weight as an explanation and argue that the relative exposure across the sexes is, in fact, rather different.Disclosures of Conflicts of Interest: A.V.P. disclosed no relevant relationships. R.S. disclosed no relevant relationships.References1. Rubin TG, Catenaccio E, Fleysher R, et al. MRI-defined white matter microstructural alteration associated with soccer heading is more extensive in women than men. Radiology 2018;289(2):478–486. Link, Google Scholar2. International Football Association Board. Laws of the game 2018/2019. https://www.knvb.nl/downloads/bestand/11263/laws-of-the-game. Published 2018. Accessed October 14, 2018. Google Scholar3. Schneider K, Zernicke RF. Computer simulation of head impact: estimation of head-injury risk during soccer heading. Int J Sport Biomech 1988;4(4):358–371. Crossref, Google Scholar4. Tierney RT, Higgins M, Caswell SV, et al. Sex differences in head acceleration during heading while wearing soccer headgear. J Athl Train 2008;43(6):578–584. Crossref, Medline, Google Scholar5. Eckner JT, Oh YK, Joshi MS, Richardson JK, Ashton-Miller JA. Effect of neck muscle strength and anticipatory cervical muscle activation on the kinematic response of the head to impulsive loads. Am J Sports Med 2014;42(3):566–576. Crossref, Medline, Google ScholarReferences1. Rubin TG, Catenaccio E, Fleysher R, et al. MRI-defined white matter microstructural alteration associated with soccer heading is more extensive in women than men. Radiology 2018;289(2):478–486. Link, Google Scholar2. Eckner JT, Oh YK, Joshi MS, Richardson JK, Ashton-Miller JA. Effect of neck muscle strength and anticipatory cervical muscle activation on the kinematic response of the head to impulsive loads. Am J Sports Med 2014;42(3):566–576. Crossref, Medline, Google Scholar3. Bailes JE, Petraglia AL, Omalu BI, Nauman E, Talavage T. Role of subconcussion in repetitive mild traumatic brain injury. J Neurosurg 2013;119(5):1235–1245. Crossref, Medline, Google Scholar4. Stewart WF, Kim N, Ifrah C, et al. Heading frequency is more strongly related to cognitive performance than unintentional head impacts in amateur soccer players. Front Neurol 2018;9:240. Crossref, Medline, Google Scholar5. Caccese JB, Buckley TA, Tierney RT, et al. Head and neck size and neck strength predict linear and rotational acceleration during purposeful soccer heading. Sports Biomech 2018;17(4):462–476. Medline, Google Scholar6. Tierney RT, Higgins M, Caswell SV, et al. Sex differences in head acceleration during heading while wearing soccer headgear. J Athl Train 2008;43(6):578–584. Crossref, Medline, Google Scholar7. Spiotta AM, Bartsch AJ, Benzel EC. Heading in soccer: dangerous play? Neurosurgery 2012;70(1):1–11; discussion 11. Crossref, Medline, Google ScholarReferences1. Rubin TG, Catenaccio E, Fleysher R, et al. MRI-defined white matter microstructural alteration associated with soccer heading is more extensive in women than men. Radiology 2018;289(2):478–486. Link, Google Scholar2. International Football Association Board. Laws of the game 2018/2019. https://www.knvb.nl/downloads/bestand/11263/laws-of-the-game. Published 2018. Accessed October 14, 2018. Google Scholar3. Schneider K, Zernicke RF. Computer simulation of head impact: estimation of head-injury risk during soccer heading. Int J Sport Biomech 1988;4(4):358–371. Crossref, Google Scholar4. Tierney RT, Higgins M, Caswell SV, et al. Sex differences in head acceleration during heading while wearing soccer headgear. J Athl Train 2008;43(6):578–584. Crossref, Medline, Google Scholar5. Eckner JT, Oh YK, Joshi MS, Richardson JK, Ashton-Miller JA. Effect of neck muscle strength and anticipatory cervical muscle activation on the kinematic response of the head to impulsive loads. Am J Sports Med 2014;42(3):566–576. Crossref, Medline, Google ScholarResponseTodd G. Rubin*, Eva Catenaccio†, Roman Fleysher*, Liane E. Hunter*, Naomi Lubin*, Walter F. Stewart‡, Mimi Kim*, Richard B. Lipton*, Michael L. Lipton* Todd G. Rubin*, Eva Catenaccio†, Roman Fleysher*, Liane E. Hunter*, Naomi Lubin*, Walter F. Stewart‡, Mimi Kim*, Richard B. Lipton*, Michael L. Lipton* Author AffiliationsDepartment of Radiology, Albert Einstein College of Medicine, 1300 Morris Park Ave, Bronx, NY 10461*Department of Pediatrics, Johns Hopkins University School of Medicine, Baltimore, Md†Sutter Health, Walnut Creek, Calif‡e-mail: [email protected]We thank Mr Pedersen and Ms Stalsberg for their praise of our article (1). Our study design required exposure assessment in a large longitudinal study of active players. We calibrated exposure by matching men and women for number of headers over 12 months. Our approach is of course not the only way to assess heading exposure and was motivated by three considerations. First, accurate and reliable characterization of heading biomechanics (force, linear and rotational acceleration, direction, etc) cannot presently be achieved outside of controlled experimental settings, such as that used by Eckner et al (2), whom Mr Pedersen and Ms Stalsberg cite. Second, our study requires assessment of many players over a wide geographic area and a long timeframe. Finally, findings from American football indicate that the number of impacts over time and not the magnitude of individual impacts is most predictive of longer-term risk (3). Similarly, we have reported that headings, but not larger magnitude impacts or concussion, explain neurocognitive outcomes (4).We cannot explicitly address the potential role of biomechanical factors in the exposure-response relationship. Mr Pedersen and Ms Stalsberg articulate an intriguing mechanistic hypothesis that the interaction of ball size with neck strength and anthropometrics may account for the sex differences we identified. As we and Mr Pedersen and Ms Stalsberg note, studies have shown that equal exposure in terms of ball size and velocity resulted in different head accelerations for men and women (5,6). Studies of individual heading events, however, do not necessarily indicate that biomechanical features explain adverse effects over the longer term or at all. While the same size ball is used in men’s and women’s soccer, unlike in basketball, factors other than ball size, such as its material, inflation level, and hardness, may play a role in head acceleration (7) and the potential for brain injury. Changing the mass of the ball will decrease its mechanical momentum but may not have the desired effect if its kinetic energy increases as a result. Finally, we caution that interventions proposed to mitigate risk should be evidence-based to maximize acceptance and minimize risk for unintended consequences. We thus agree with Mr Pedersen and Ms Stalsberg that prospective assessment of biomechanics-based interventions, such as ball design, is an intriguing target for future studies. Disclosures of Conflicts of Interest: T.G.R. disclosed no relevant relationships. E.C. disclosed no relevant relationships. R.F. disclosed no relevant relationships. L.E.H. disclosed no relevant relationships. N.L. Activities related to the present article: received a grant from the National Institutes of Health. Activities not related to the present article: disclosed no relevant relationships. Other relationships: disclosed no relevant relationships. W.F.S. Activities related to the present article: received a grant from the Einstein College of Medicine. Activities not related to the present article: disclosed no relevant relationships. Other relationships: disclosed no relevant relationships. M.K. Activities related to the present article: institution received a grant from the National Institutes of Health. Activities not related to the present article: is a paid consultant for Celgene; institution has grants/grants pending from the National Institutes of Health. Other relationships: disclosed no relevant relationships. R.B.L. Activities related to the present article: disclosed no relevant relationships. Activities not related to the present article: received grants from the National Institutes of Health, Migraine Research Foundation, and National Headache Foundation; received personal fees from NIA, National Institute of Nerurological Disorders, Alder, Allergan, Amgen, Automatic Technologies, Avanir, Biohaven, Biovision, Boston Scientific, Cephalagia, Dr. Reddy’s Laboratories, Electrocore, Eli Lilly, eNeura Therapeutics, GlaxoSmithKline, Merck, Novartis, Pernix, Pfizer, Supernus, Teva, Trigemina, Vector, and Vedanta; receives royalties from Wiley and Informa; has stock/stock options in eNeura Therapeutics and Biohaven; receives honorarium from American Headache Society and American Academy of Neurology; receives royalties from Oxford University Press, Informa, and Wiley. Other relationships: disclosed no relevant relationships. M.L.L. disclosed no relevant relationships.References1. Rubin TG, Catenaccio E, Fleysher R, et al. MRI-defined white matter microstructural alteration associated with soccer heading is more extensive in women than men. Radiology 2018;289(2):478–486. Link, Google Scholar2. Eckner JT, Oh YK, Joshi MS, Richardson JK, Ashton-Miller JA. Effect of neck muscle strength and anticipatory cervical muscle activation on the kinematic response of the head to impulsive loads. Am J Sports Med 2014;42(3):566–576. Crossref, Medline, Google Scholar3. Bailes JE, Petraglia AL, Omalu BI, Nauman E, Talavage T. Role of subconcussion in repetitive mild traumatic brain injury. J Neurosurg 2013;119(5):1235–1245. Crossref, Medline, Google Scholar4. Stewart WF, Kim N, Ifrah C, et al. Heading frequency is more strongly related to cognitive performance than unintentional head impacts in amateur soccer players. Front Neurol 2018;9:240. Crossref, Medline, Google Scholar5. Caccese JB, Buckley TA, Tierney RT, et al. Head and neck size and neck strength predict linear and rotational acceleration during purposeful soccer heading. Sports Biomech 2018;17(4):462–476. Medline, Google Scholar6. Tierney RT, Higgins M, Caswell SV, et al. Sex differences in head acceleration during heading while wearing soccer headgear. J Athl Train 2008;43(6):578–584. Crossref, Medline, Google Scholar7. Spiotta AM, Bartsch AJ, Benzel EC. Heading in soccer: dangerous play? Neurosurgery 2012;70(1):1–11; discussion 11. Crossref, Medline, Google ScholarArticle HistoryPublished online: Jan 8 2019Published in print: Feb 2019 FiguresReferencesRelatedDetailsCited ByScaling Demands of Soccer According to Anthropometric and Physiological Sex Differences: A Fairer Comparison of Men’s and Women’s SoccerArve VorlandPedersen, Ingvild MereteAksdal, RagnaStalsberg2019 | Frontiers in Psychology, Vol. 10Recommended Articles Shear-Wave Elastography: Basic Physics and Musculoskeletal ApplicationsRadioGraphics2017Volume: 37Issue: 3pp. 855-870White Matter by Diffusion MRI Following Methylphenidate Treatment: A Randomized Control Trial in Males with Attention-Deficit/Hyperactivity DisorderRadiology2019Volume: 293Issue: 1pp. 186-192MRI-defined White Matter Microstructural Alteration Associated with Soccer Heading Is More Extensive in Women than MenRadiology2018Volume: 289Issue: 2pp. 478-486Diffusion Tensor MRI of White Matter of Healthy Full-term Newborns: Relationship to Neurodevelopmental OutcomesRadiology2019Volume: 292Issue: 1pp. 179-187MR Imaging of Muscle Trauma: Anatomy, Biomechanics, Pathophysiology, and Imaging AppearanceRadioGraphics2017Volume: 38Issue: 1pp. 124-148See More RSNA Education Exhibits A “Pseudo” Review of NeuroradiologyDigital Posters2018Living on the Edge: Incidental Soft Tissue Findings on Chest FilmsDigital Posters2019Winter Sports Trauma: What a Radiologist Should Know About Brain, Spine and Head and Neck Injuries in SnowDigital Posters2020 RSNA Case Collection Pediatric Idiopathic Intervertebral Disc CalcificationRSNA Case Collection2020Acute Disseminated Encephalomyelitis (ADEM)RSNA Case Collection2021Synovial sarcoma of neckRSNA Case Collection2020 Vol. 290, No. 2 Metrics Altmetric Score PDF download