Recent sophisticated laboratory research has better elucidated injury biomechanics associated with concussion in professional football players. This data has led to changes in helmet design and new helmet technology, which appears to have beneficial effects in reducing the incidence of cerebral concussion in high school football players.
A history of concussion and gender may account for significant differences in postconcussive neurocognitive test scores in soccer players and may play a role in determining recovery. These differences do not appear to reflect differences in mass between genders and may be related to other gender-specific factors that deserve further study.
The diagnosis and management of sports-related concussion can be one of the most challenging endeavors for the sports medicine practitioner. The team physician is often called upon to make the return to play decision based on limited observation of the athlete and a brief sideline evaluation. Furthermore, return to play decisions are often made against the backdrop of a noisy stadium or arena where there is intense pressure from coaches, fans, and other players to return the injured athlete to the playing field as quickly as possible.As a result of concerns regarding both short-term and potential long-term sequelae of concussion, more than 20 management guidelines have been published to provide guidance regarding return to play issues. However, in the absence of supporting research to substantiate any particular return to play protocol, concussion management strategies throughout the 1980s and 1990s were based on the opinion of individual physicians or groups of experts rather than on empirical findings [1,2]. However, current research has prompted a reevaluation and revision of prior guidelines along with recent revisions in concussion management strategies. This article reviews new developments in the evaluation and management of sports-related concussion and focuses specifically on practical suggestions for making return to play decisions.
Definition of concussionDespite hundreds of studies and years of research, there is currently no universally accepted definition of concussion. However, for the past three decades
Clinicians should be cognizant that student-athletes with a history of trait anxiety, depression, and anxiety with depression may report higher symptom score and severity at baseline. Individuals with extensive concussion history may experience greater state anxiety, depression, and somatization.
Individuals self-reporting a concussion at a young age sustained a higher number of concussions before age 18. Concussion prevention, recognition, and reporting strategies are of particular need at the youth level.
Some healthy athletes report high levels of baseline concussion symptoms, which may be attributable to several factors (eg, illness, personality, somaticizing). However, the role of baseline symptoms in outcomes after sport-related concussion (SRC) has not been empirically examined.Context:
To determine if athletes with high symptom scores at baseline performed worse than athletes without baseline symptoms on neurocognitive testing after SRC.Objective:
Cohort study.Design:
High school and collegiate athletic programs.Setting:
A total of 670 high school and collegiate athletes participated in the study. Participants were divided into groups with either no baseline symptoms (Postconcussion Symptom Scale [PCSS] score = 0, n = 247) or a high level of baseline symptoms (PCSS score > 18 [top 10% of sample], n = 68).Patients or Other Participants:
Participants were evaluated at baseline and 2 to 7 days after SRC with the Immediate Post-concussion Assessment and Cognitive Test and PCSS. Outcome measures were Immediate Post-concussion Assessment and Cognitive Test composite scores (verbal memory, visual memory, visual motor processing speed, and reaction time) and total symptom score on the PCSS. The groups were compared using repeated-measures analyses of variance with Bonferroni correction to assess interactions between group and time for symptoms and neurocognitive impairment.Main Outcome Measure(s):
The no-symptoms group represented 38% of the original sample, whereas the high-symptoms group represented 11% of the sample. The high-symptoms group experienced a larger decline from preinjury to postinjury than the no-symptoms group in verbal (P = .03) and visual memory (P = .05). However, total concussion-symptom scores increased from preinjury to postinjury for the no-symptoms group (P = .001) but remained stable for the high-symptoms group.Results:
Reported baseline symptoms may help identify athletes at risk for worse outcomes after SRC. Clinicians should examine baseline symptom levels to better identify patients for earlier referral and treatment for their injury. Additional investigation of baseline symptoms is warranted to help delineate the type and severity of premorbid symptoms.Conclusions:
ObjectiveTo examine the association between estimated age of first exposure (eAFE) to American football and clinical measures throughout recovery following concussion.MethodsParticipants were recruited across 30 colleges and universities as part of the NCAA–DoD Concussion Assessment, Research and Education (CARE) Consortium. There were 294 NCAA American football players (age = 19 ± 1 years) evaluated 24–48 hours following concussion with valid baseline data and 327 (age = 19 ± 1 years) evaluated at the time they were asymptomatic with valid baseline data. Participants sustained a medically-diagnosed concussion between baseline testing and post-concussion assessments. Outcome measures included the number of days until asymptomatic, Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT) composite scores, Balance Error Scoring System (BESS) total score, and Brief Symptom Inventory 18 (BSI-18) sub-scores. The eAFE was defined as participant's age at the time of assessment minus self-reported number of years playing football.ResultsIn unadjusted regression models, younger eAFE was associated with lower (worse) ImPACT Visual Motor Speed (R2 = 0.031, p = 0.012) at 24–48 hours following injury and lower (better) BSI-18 Somatization sub-scores (R2 = 0.014, p = 0.038) when the athletes were asymptomatic. The effect sizes were very small. The eAFE was not associated with the number of days until asymptomatic, other ImPACT composite scores, BESS total score, or other BSI-18 sub-scores.ConclusionEarlier eAFE to American football was not associated with longer symptom recovery, worse balance, worse cognitive performance, or greater psychological distress following concussion. In these NCAA football players, longer duration of exposure to football during childhood and adolescence appears to be unrelated to clinical recovery following concussion.
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