Laura Purcell

Consensus statement on concussion in sport: the 4th International Conference on Concussion in Sport held in Zurich, November 2012

This paper is a revision and update of the recommendations developed following the 1st (Vienna 2001), 2nd (Prague 2004) and 3rd (Zurich 2008) International Consensus Conferences on Concussion in Sport and is based on the deliberations at the 4th International Conference on Concussion in Sport held in Zurich, November 2012.1–3 The new 2012 Zurich Consensus statement is designed to build on the principles outlined in the previous documents and to develop further conceptual understanding of this problem using a formal consensus-based approach. A detailed description of the consensus process is outlined at the end of this document under the Background section. This document is developed primarily for use by physicians and healthcare professionals who are involved in the care of injured athletes, whether at the recreational, elite or professional level. While agreement exists pertaining to principal messages conveyed within this document, the authors acknowledge that the science of concussion is evolving, and therefore management and return to play (RTP) decisions remain in the realm of clinical judgement on an individualised basis. Readers are encouraged to copy and distribute freely the Zurich Consensus document, the Concussion Recognition Tool (CRT), the Sports Concussion Assessment Tool V.3 (SCAT3) and/or the Child SCAT3 card and none are subject to any restrictions, provided they are not altered in any way or converted to a digital format. The authors request that the document and/or the accompanying tools be distributed in their full and complete format. This consensus paper is broken into a number of sections 1. A summary of concussion and its management, with updates from the previous meetings; 2. Background information about the consensus meeting process; 3. A summary of the specific consensus questions discussed at this meeting; 4. The Consensus paper should be read in conjunction with the SCAT3 assessment tool, the Child SCAT3 and the CRT …

Consensus statement on concussion in sport: the 4th international conference on concussion in sport, Zurich, november 2012

Paul McCrory, MBBS, PhD*; Willem H. Meeuwisse, MD, PhD†; Mark Aubry, MD‡; Robert C. Cantu, MD§; Jiři Dvořak, MD||; Ruben J. Echemendia, PhD¶; Lars Engebretsen, MD, PhD#; Karen Johnston, MD, PhD**; Jeffrey S. Kutcher, MD††; Martin Raftery, MBBS‡‡; Allen Sills, MD§§; Brian W. Benson, MD, PhD||||; Gavin A. Davis, MBBS¶¶; Richard Ellenbogen, MD##; Kevin M. Guskiewicz, PhD***; Stanley A. Herring, MD†††; Grant L. Iverson, PhD‡‡‡; Barry D. Jordan, MD§§§; James Kissick, MD||||||; Michael McCrea, PhD¶¶¶; Andrew S. McIntosh, PhD###; David Maddocks, LLB, PhD****; Michael Makdissi, MBBS, PhD††††; Laura Purcell, MD‡‡‡‡; Margot Putukian, MD§§§§; Kathryn Schneider, PhD||||||||; Charles H. Tator, MD, PhD¶¶¶¶; Michael Turner, MD####

Revisiting the modifiers: how should the evaluation and management of acute concussions differ in specific groups?

Background One of the key difficulties while managing concussion in sport is that there are few prognostic factors to reliably predict clinical outcome. The aims of the current paper are to review the evidence for concussion modifiers and to consider how the evaluation and management of concussion may differ in specific groups. Methods A qualitative review of the literature on concussion was conducted with a focus on prognostic factors and specific groups including children, female athletes and elite versus non-elite players. PubMed, MEDLINE and SportsDiscus databases were reviewed. Results The literature demonstrates that number and severity of symptoms and previous concussions are associated with prolonged recovery and/or increased risk of complications. Brief loss of consciousness (LOC) and/or impact seizures do not reliably predict outcomes following a concussion, although a cautious approach should be adopted in an athlete with prolonged LOC or impact seizures (ie, >1 min). Children generally take longer to recover from concussions and assessment batteries have yet to be validated in the younger age group. Currently, there are insufficient data on the influence of genetics and gender on outcomes following a concussion. Conclusions Several modifiers are associated with prolonged recovery or increased risk of complications following a concussion and have important implications for management. Children with concussion should be managed conservatively, with an emphasis on return to learn as well as return to sport. In cases of concussions managed with limited resources (eg, non-elite players), a conservative approach should also be taken. There should be an emphasis on concussion education in all sports and at all levels, particularly in junior and community-based competitions.

Consensus statement on Concussion in Sport - The 4th International Conference on Concussion in Sport held in Zurich, November 2012.

the 4th International Conference on Concussion in Sport held in Zurich, November 2012 Paul McCrory, Willem H Meeuwisse, Mark Aubry, Bob Cantu, Jiří Dvořák, Ruben J Echemendia, Lars Engebretsen, Karen Johnston, Jeffrey S Kutcher, Martin Raftery, Allen Sills, Brian W Benson, Gavin A Davis, Richard G Ellenbogen, Kevin Guskiewicz, Stanley A Herring, Grant L Iverson, Barry D Jordan, James Kissick, Michael McCrea, Andrew S McIntosh, David Maddocks, Michael Makdissi, Laura Purcell, Margot Putukian, Kathryn Schneider, Charles H Tator, Michael Turner

The evaluation and management of acute concussion differs in young children

Background There are many reasons why concussion in children needs to be considered different from adults. The Zurich (2008) recommendations on the management of concussion in children are restricted to children less than to 10 years of age. It does not include recommendations for children aged 5–10 years. The aim of this study is to review the current literature on (1) concussion assessment at the sideline and during recovery stages, especially in the age group 5–15 years, and (2) the management of concussion in children and adolescents. Methods A literature review using the MEDLINE database was undertaken. Articles were selected that included evaluation and/or management in children aged 5–15 years. Results There are no sideline assessment tools validated for use in this age group. There are a number of different symptom scales that have been validated during different stages of the follow-up assessment in children. No single paediatric concussion assessment tool has been validated for use from sideline through to all stages of recovery. Reliability studies have been published on Balance Error Scoring System in children, but validity studies in this age group have not been published. The management of concussion includes withdrawal from play on the day and cognitive and physical rest. The priority of concussion management in children is to return to learn; while this is usually rapid, there are some children in whom a graduated return to school is required, which should include a number of accommodations. Conclusions A young child is physically, cognitively and emotionally very different from adults, and requires the use of a different set of tools for the diagnosis, recovery-assessment and management of concussion. Age-specific, validated diagnostic tools are required, and management of concussion in children should focus attention on return to learn before considering return to play.

Low Back Pain in Young Athletes

Context: Low back pain in young athletes is a common complaint and should be taken seriously. It frequently results from a structural injury that requires a high degree of suspicion to diagnose and treat appropriately. Evidence Acquisition: A Medline search was conducted from 1996 to May 2008 using the search terms “low back pain in children” and “low back pain in athletes.” Known texts on injuries in young athletes were also reviewed. References in retrieved articles were additionally searched for relevant articles. Sources were included if they contained information regarding diagnosis and treatment of causes of low back pain in children. Results: Low back pain is associated with sports involving repetitive extension, flexion, and rotation, such as gymnastics, dance, and soccer. Both acute and overuse injuries occur, although overuse injuries are more common. Young athletes who present with low back pain have a high incidence of structural injuries such as spondylolysis and other injuries to the posterior elements of the spine. Disc-related pathology is much less common. Simple muscle strains are much less likely in this population and should be a diagnosis of exclusion only. Conclusion: Young athletes who present with low back pain are more likely to have structural injuries and therefore should be investigated fully. Muscle strain should be a diagnosis of exclusion. Treatment should address flexibility and muscle imbalances. Injuries can be prevented by recognizing and addressing risk factors. Return to sport should be a gradual process once the pain has resolved and the athlete has regained full strength.

Sport-Related Concussion in Pediatric Athletes

define concussion as “a complex pathophysiological process affecting the brain, induced by traumatic biomechanical forces.” 2,3 Features used in defining concussion include: (1) trauma including a direct blow to the head, neck or face, or a blow to another part of the body which transmits an impulsive force to the head ; (2) rapid onset of short-lived neurological impairment which spontaneously resolves; (3) acute clinical symptoms of concussion reflecting a functional injury rather than a structural abnormality; (4) a graded set of clinical syndromes, which may or may not involve loss of consciousness and which resolve in a sequential course; and (5) typically normal structural neuroimaging. The majority of concussions do not result in a loss of consciousness or cause only a transient loss of consciousness (less than a minute).

What is the difference in concussion management in children as compared with adults? A systematic review

Aim To evaluate the evidence regarding the management of sport-related concussion (SRC) in children and adolescents. The eight subquestions included the effects of age on symptoms and outcome, normal and prolonged duration, the role of computerised neuropsychological tests (CNTs), the role of rest, and strategies for return to school and return to sport (RTSp). Design Systematic review. Data sources MEDLINE (OVID), Embase (OVID) and PsycInfo (OVID). Eligibility criteria for selecting studies Studies were included if they were original research on SRC in children aged 5 years to 18 years, and excluded if they were review articles, or did not focus on childhood SRC. Results A total of 5853 articles were identified, and 134 articles met the inclusion criteria. Some articles were common to multiple subquestions. Very few studies examined SRC in young children, aged 5–12 years. Summary/conclusions This systematic review recommends that in children: child and adolescent age-specific paradigms should be applied; child-validated symptom rating scales should be used; the widespread routine use of baseline CNT is not recommended; the expected duration of symptoms associated with SRC is less than 4 weeks; prolonged recovery be defined as symptomatic for greater than 4 weeks; a brief period of cognitive and physical rest should be followed with gradual symptom-limited physical and cognitive activity; all schools be encouraged to have a concussion policy and should offer appropriate academic accommodations and support to students recovering from SRC; and children and adolescents should not RTSp until they have successfully returned to school, however early introduction of symptom-limited physical activity is appropriate. Systematic review registration PROSPERO 2016:CRD42016039184

The child and adolescent athlete: a review of three potentially serious injuries

The increased participation of children and adolescents in organized sports worldwide is a welcome trend given evidence of lower physical fitness and increased prevalence of overweight in this population. However, the increased sports activity of children from an early age and continued through the years of growth, against a background of their unique vulnerability to injury, gives rise to concern about the risk and severity of injury. Three types of injury–anterior cruciate ligament (ACL) injury, concussion, and physeal injury – are considered potentially serious given their frequency, potential for adverse long-term health outcomes, and escalating healthcare costs. Concussion is probably the hottest topic in sports injury currently with voracious media coverage and exploding research interest. Given the negative cognitive effects of concussion, it has the potential to have a great impact on children and adolescents during their formative years and potentially impair school achievement and, if concussion management is not managed appropriately, there can be long term negative impact on cognitive development and ability to resume sports participation. Sudden and gradual onset physeal injury is a unique injury to the pediatric population which can adversely affect growth if not managed correctly. Although data are lacking, the frequency of stress-related physeal injury appears to be increasing. If mismanaged, physeal injuries can also lead to long-term complications which could negatively affect ability to participate in sports. Management of ACL injuries is an area of controversy and if not managed appropriately, can affect long-term growth and recovery as well as the ability to participate in sports. This article considers the young athlete’s vulnerability to injury, with special reference to ACL injury, concussion, and physeal injury, and reviews current research on epidemiology, diagnosis, treatment, and prevention of these injury types. This article is intended as an overview of these injury types for medical students, healthcare professionals and researchers.

Patterns of Recovery Following Sport-Related Concussion in Children and Adolescents:

Time to symptom resolution, return to school, and return to play after a sport-related concussion in children and adolescents (8-17 years of age) was examined using a retrospective cohort design. A total of 198 patients aged 8 to 17 years were included, with a mean age of 13.5 years (SD = 2.2). Patients aged 8 to 12 years were symptom-free in a median of 12.0 (range 1-60) days whereas 13- to 17-year olds were symptom-free in a median of 14.0 (range 1-300) days (P = .04). Patients aged 8 to 12 years returned to learn in a median of 4.0 (range 0-30) days compared with 2.5 (range 0-55.0) days in 13- to 17-year-olds (P = .86). Patients aged 8 to 12 years returned to play in a median of 14.0 (range 4-75) days compared with a median of 19.5 (range 5-75) days in 13- to 17-year-olds (P = .06). These results indicate that children and adolescents generally take 2 to 4 weeks to recover from a sport-related concussion.