Sports-related concussions

P13BP, a Calpain-2-Mediated Breakdown Product of PTPN13, Is a Novel Blood Biomarker for Traumatic Brain Injury

Biomarkers play an increasing role in medicinal biology. They are used for diagnosis, management, drug target identification, drug responses, and disease prognosis. We have discovered that calpain-1 and calpain-2 play opposite functions in neurodegeneration, with calpain-1 activation being neuroprotective, while prolonged calpain-2 activation is neurodegenerative. This notion has been validated in several mouse models of acute neuronal injury, in particular in mouse models of traumatic brain injury (TBI) and repeated concussions. We have identified a selective substrate of calpain-2, the tyrosine phosphatase, PTPN13, which is cleaved in brain after TBI. One of the fragments generated by calpain-2, referred to as P13BP, is also found in the blood after TBI both in mice and humans. In humans, P13BP blood levels are significantly correlated with the severity of TBI, as measured by Glasgow Coma Scale scores and loss of consciousness. The results indicate that P13BP represents a novel blood biomarker for TBI.

Symptom-Guided Emergency Department Discharge Instructions for Children With Concussion

OBJECTIVES

The objective was to evaluate the use and utility of a novel set of emergency department discharge instructions (DIs) for concussion based on a child's ongoing symptoms: symptom-guided DIs (symptom DIs). Differences in clinical outcomes were also assessed.

METHODS

A convenience sample of 114 children aged 7 to 17 years presenting to an urban pediatric emergency department with a complaint of concussion was assembled. Children were randomized to standard DIs or symptom DIs. Children completed a graded symptom checklist (GSC) and completed daily the GSC for 1 week. Telephone follow-up was performed at 7 days after enrollment using a standardized survey.

RESULTS

Fifty-eight children received the symptom DIs, and 56 received the standard DIs. Rates of use were similar with reported rates of 92% for symptom DIs and 84% for standard DIs. Caregivers with symptom DIs reported that the DIs were more helpful in determining when their child could return to school and physical activity (P < 0.05) than caregivers with standard DIs. Children continued to have postconcussive symptoms days and weeks after their injury with 44% of children with symptom DIs and 51% of children with standard DIs reporting symptoms on the GSC at 1 week.

CONCLUSIONS

Both study groups reported frequent use of the DIs. Caregivers with symptom DIs found them particularly helpful in determining when their child could return to school and physical activity. Larger-scale investigations are needed to further develop instructions that are easy to use and that may decrease the postconcussive period.

What Definition Is Used to Describe Second Impact Syndrome in Sports? A Systematic and Critical Review

Concern about what has been termed, "second impact syndrome" (SIS) is a major factor determining return-to-play decisions after concussion. However, definitions of SIS vary. We used Scopus to conduct a systematic review and categorize the definitions used to describe SIS. Of the 91 sources identified, 79 (87%) clearly specified that SIS involved either cerebral edema or death after a concussion when a prior concussion had not resolved. Twelve articles (13%) could be interpreted as merely the events of two consecutive concussions. Among the articles that listed mortality rates, nearly all (33/35, 94%) said the rate of death was "high" (e.g., 50% to 100%). Our review found that most articles define SIS as a syndrome requiring catastrophic brain injury after consecutive concussive episodes. Given that it is unclear how common it is to have a second concussion while not fully recovered from a first concussion, the actual mortality rate of SIS is unknown.

The Biomechanical Determinants of Concussion: Finite Element Simulations to Investigate Brain Tissue Deformations During Sporting Impacts to the Unprotected Head

Concussion is an injury of specific interest in collision and contact sports, resulting in a need to develop effective preventive strategies. A detailed finite element model of the human head was used to approximate the regional distribution of tissue deformations in the brain by simulating reconstructions of unhelmeted concussion and no-injury head impacts. The results were evaluated using logistic regression analysis and it was found that angular kinematics, in the coronal plane, and maximum principal strains, in all regions of the brain, were significantly associated with concussion. The results suggested that impacts to the temporal region of the head cause coronal rotations, which render injurious strain levels in the brain. Tentative strain tolerance levels of 0.13, 0.15, and 0.26 in the thalamus, corpus callosum, and white matter, respectively, for a 50% likelihood of concussion were determined by logistic regression. The tentative strain tolerance levels compared well with previously reported results from reconstruction studies of American football and single axon, optic nerve, and brain slice culture model studies. The methods used in the current study provide an opportunity to collect unique kinematic data of sporting impacts to the unprotected head, which can be employed in various ways to broaden the understanding of concussion.

Evaluation of emergency medicine discharge instructions in pediatric head injury

OBJECTIVES

Pediatric head trauma is a common occurrence. There is mounting evidence that even patients with minor head injury require limits on school activities and/or removal from sports and play to help speed recovery and limit morbidity. The objective of this study was to determine whether discharge instructions given to children who had sustained head injuries included information regarding activity restrictions, activity time constraints, and/or specifics of follow-up care.

METHODS

This was a retrospective chart review of patients aged 2 to 18 years evaluated and treated for head injury during a 4-month period at a level I trauma center (volume ∼23,000 pediatric patients per year). Included were those children seen, evaluated, and diagnosed with any of the following: mild head injury, concussion, minor head trauma, or mild traumatic brain injury (mTBI). Subjects were excluded if there was a positive acute head injury computed tomography finding (other than findings of a simple linear skull fracture) or if the subject required admission.

RESULTS

Among the 204 patients meeting eligibility, 95.1% received instruction to follow up with a physician, 82.8% received anticipatory guidance regarding expected symptoms, 15.2% received specific restriction time from sports, and 21.5% were removed from sports. Of these patients, 113 patients were determined "likely" to have sustained an mTBI. Patients with sports-related mTBI received return-to-sports restrictions (χ2 = 11.225, P < 0.008) and to remove the child from play (χ2 = 9.781, P < 0.004) as discharge instructions significantly more than did patients with motor vehicle accident or other mechanisms of injury.

CONCLUSIONS

Children sustaining head injury were inadequately instructed to restrict athletic activities upon discharge. This is particularly true for patients who sustain an mTBI from non-sports-related activity.

Sport-related concussion

Sport-related concussion is a common injury in children and adolescents. Athletes seldom report concussive symptoms, which makes the diagnosis a challenge. The management of sport-related concussion has changed significantly over the last several years. The previously used grading systems and return-to-play guidelines have been abandoned in favor of more individualized assessment and management. Neuropsychological testing is being used more frequently to assist in management. After recovery, it is recommended that an athlete's return-to-play progress in a gradual, stepwise fashion while being monitored by a health care provider. Proper assessment and management of a sport-related concussion is crucial, because repeat concussions can result in decreased neurocognitive functioning, increased symptomatology, and, at times, catastrophic outcomes.

Pediatric concussions in sports; a simple and rapid assessment tool for concussive injury in children and adults

BACKGROUND

We established a routine protocol for concussion evaluation in athletes for nonmedical personnel. The evaluation, management guidelines, and return-to-play recommendations were summarized with a memorable mnemonic on a convenient handheld card.

MATERIALS AND METHODS

The ability to remember the return-to-play mnemonic and effectively apply it to corresponding guidelines was evaluated in 194 sports personnel without medical training. The participants were given three clinical scenarios, each including age, pertinent history, sporting event, description of an injury, symptoms, signs, and a brief neurological exam. Subsequently, the subject's ability to recall the return-to-play mnemonic and the Standard Assessment of Concussion, to describe the corresponding guidelines, and to advise return-to-play was evaluated.

CONCLUSION

Our "return-to-play" mnemonic was found to be simple and memorable, allowing for a high recall percentage and accurate evaluation of concussion cases. High intersubject agreement suggests that this method has both standardization and generalization potential.

Sideline and ringside evaluation for brain and spinal injuries

✓Participation in contact and collision sports carries an inherent risk of injury to the athlete, with damage to the nervous system producing the most potential for significant morbidity and death. Neurological injuries suffered during athletic competition must be treated promptly and correctly to optimize outcome, and differentiation between minor and serious damage is the foundation of sideline/ringside management of the injury. In this article the authors present a guide to the sideline or ringside identification and management of head and spinal injuries.

Concussive head injury in children and adolescents related to sports and other leisure physical activities

OBJECTIVE

To compare the characteristics of children and adolescents with concussive head injury (CHI) sustained during organised sports or other leisure physical activity.

METHODS

This was a case series study reviewing the medical records retrospectively over a four year period of children 6-16 years presenting to the emergency department with a CHI after participating in sport and/or recreation activity.

RESULTS

There were 592 cases of sport and recreation related concussion over the study period (2000-2003). Most of the patients (n = 424, 71.6%) were male, with half (n = 304, 51.4%) being older than 10 years of age. A total of 152 (25.7%) cases of CHI were related to playing sports. Most cases (71.2%) were mild concussion. The cause of injury was a fall (n = 322, 54.4%) or a collision. Nearly a quarter of the children (n = 143, 24.2%) were admitted to hospital, with imaging performed in 134 (22.7%). Most children were treated appropriately and no adverse events were reported.

CONCLUSIONS

A severe CHI in a child is six times more likely to have resulted from organised sport than from other leisure physical activities. Outcomes for CHI in children is excellent, although their management places a considerable burden on emergency services. The need for activity restriction and the benefits of this in reducing long term cognitive effects of CHI are uncertain.