Consensus Recommendations on the Prehospital Care of the Injured Athlete With a Suspected Catastrophic Cervical Spine Injury.

INTRODUCTION: Sports participation is among the leading causes of catastrophic cervical spine injury (CSI) in the United States. Appropriate prehospital care for athletes with suspected CSIs should be available at all levels of sport. The goal of this project was to develop a set of best-practice recommendations appropriate for athletic trainers, emergency responders, sports medicine and emergency physicians, and others engaged in caring for athletes with suspected CSIs. METHODS: A consensus-driven approach (RAND/UCLA method) in combination with a systematic review of the available literature was used to identify key research questions and develop conclusions and recommendations on the prehospital care of the spine-injured athlete. A diverse panel of experts, including members of the National Athletic Trainers' Association, the National Collegiate Athletic Association, and the Sports Institute at UW Medicine participated in 4 Delphi rounds and a 2-day nominal group technique (NGT) meeting. The systematic review involved 2 independent reviewers and 4 rounds of blinded review. RESULTS: The Delphi process identified 8 key questions to be answered by the systematic review. The systematic review comprised 1544 studies, 49 of which were included in the final full-text review. Using the results of the systematic review as a shared evidence base, the NGT meeting created and refined conclusions and recommendations until consensus was achieved. CONCLUSIONS: These conclusions and recommendations represent a pragmatic approach, balancing expert experiences and the available scientific evidence.

The Influence of Heavier Football Helmet Faceguards on Head Impact Location and Severity.

OBJECTIVE: To determine whether players with heavier faceguards have increased odds of sustaining top of the head impacts and head impacts of higher severity. DESIGN: Cohort study. SETTING: On-field. PARTICIPANTS: Thirty-five division I collegiate football players. INTERVENTIONS: Faceguard mass was measured. Head impact location and severity (linear acceleration [gravity], rotational acceleration [radian per square second], and Head Impact Technology severity profile [unitless]) were captured for 19 379 total head impacts at practices using the Head Impact Telemetry System. MAIN OUTCOME MEASURES: Players' faceguards were categorized as either heavier (>480 g) or lighter (≤480 g) using a median split. Odds ratios (ORs) and 95% confidence intervals (CIs) were computed for sustaining top of the head impacts between faceguard groups using a random intercepts generalized logit model. We compared head impact severity between groups using random intercepts general linear models (α = 0.05). Player position was included in all models. RESULTS: Overall, the 4 head impact locations were equally distributed across faceguard groups (F(3,26) = 2.16, P = 0.117). Football players with heavier faceguards sustained a higher proportion impacts to the top of the head (24.7% vs 17.5%) and had slightly increased odds of sustaining top (OR, 1.72; 95% CI, 1.01-2.94) head impacts rather than front of the head impacts. CONCLUSIONS: Football players wearing heavier faceguards might be slightly more prone to sustaining a higher proportion of top of the head impacts, suggesting that greater faceguard mass may make players more likely to lower their head before collision. Individuals involved with equipment selection should consider the potential influence of faceguard design on head impact biomechanics when recommending the use of a heavier faceguard.

Brachial plexus injury: a descriptive study of American football.

A stinger is a common, yet understudied, injury that involves stretching or compression of the brachial plexus, often occurring during contact sports. Five football teams, including high school, collegiate, and professional teams, completed questionnaires. Questions were designed to obtain descriptive information regarding the nature and consequence of this injury and assess effectiveness of current preventive measures. Three hundred and four surveys were returned with 153 players reporting a stinger in their career (50.3%). The prevalence increased with years played and was most common in running backs (69%), defensive linemen (60%), linebackers (55%), and defensive secondary (54%). Current protective equipment and neck-strengthening programs did not provide protective benefits. Players at greatest risk of developing a stinger include those having played 3 or more years and players whose primary position is running back, defensive back, or defensive lineman. Further study is needed to better evaluate the effectiveness of current preventive measures.

Preventing Exertional Heat Stroke in Football: Time for a Paradigm Shift.

CONTEXT: Among American sports, football has the highest incidence of exertional heat stroke (EHS), despite decades of prevention strategies. Based on recent reports, 100% of high school and college EHS football fatalities occur during conditioning sessions. Linemen are the at-risk population, constituting 97% of football EHS deaths. Linemen heat up faster and cool down slower than other players. EVIDENCE ACQUISITION: Case series were identified from organized, supervised football at the youth, high school, and collegiate levels and compiled in the National Registry of Catastrophic Sports Injuries. Sources for event occurrence were media reports and newspaper clippings, autopsy reports, certificates of death, school-sponsored investigations, and published medical literature. Articles were identified through PubMed with search terms "football," "exertional heat stroke," and "prevention." STUDY DESIGN: Clinical review. LEVEL OF EVIDENCE: Level 5. RESULTS: Football EHS is tied to (1) high-intensity drills and conditioning that is not specific to individual player positions, (2) physical exertion as punishment; (3) failure to modify physical activity for high heat and humidity, (4) failure to recognize early signs and symptoms of EHS, and (5) death when cooling is delayed. CONCLUSION: To prevent football EHS, (1) all training and conditioning should be position specific; (2) physical activity should be modified per the heat load; (3) understand that some players have a "do-or-die" mentality that supersedes their personal safety; (4) never use physical exertion as punishment; (5) eliminate conditioning tests, serial sprints, and any reckless drills that are inappropriate for linemen; and (6) consider air-conditioned venues for linemen during hot practices. To prevent EHS, train linemen based on game demands. STRENGTH-OF-RECOMMENDATION TAXONOMY: n/a.

Acute and Emergent Spinal Injury Assessment and Treatment.

Sports participation is a leading cause of catastrophic cervical spine injury (CSI) in the United States. Appropriate prehospital care for athletes with suspected CSIs should be available at all levels of sport. Planning the process of transport for home venues before the start of the season and ensuring that a medical time out occurs at home and away games can reduce complications of transport decisions on the field of play and expedite transport of the spine-injured athlete.

Emergency cardiac care in the athletic setting: from schools to the Olympics.

Medical providers at sporting events must be well-trained in the care of cardiac emergencies. Optimal outcomes are most likely achieved through comprehensive emergency planning that ensures prompt and appropriate care. The diversity of athletic venues, as well as the age and competition level of different athlete populations, present challenges to the provision of appropriate emergency care in sport. An efficient and coordinated medical response to cardiac emergencies requires an established emergency action plan, training of potential first responders in cardiopulmonary resuscitation and use of an automated external defibrillator, coordinating communication and transportation systems, and ensuring access to appropriate medical equipment and supplies. Prompt recognition and early defibrillation are critical in the management of athletes suffering sudden cardiac arrest. This article reviews emergency planning and cardiac care in athletics, with special considerations presented for the school, large arena, mass event and Olympic settings.

Coach, sports medicine, and parent influence on concussion care seeking intentions and behaviors in collegiate student-athletes.

BACKGROUND: Sport is a socio-ecological framework where student-athletes are part of a larger community of stakeholders, including coaches, sports medicine professionals (SMPs), and parents. This framework may hold influence over whether student-athletes seek care for a concussion. AIM: We aimed to describe, compare, and determine the influence of stakeholder concussion knowledge, attitudes, and concussion scenario responses. MATERIALS AND METHODS: We recruited a sample of 477 student-athletes and their 27 coaches (response rate=46.6%), 24 SMPs (48.7%), and 31 parents/guardians (4.8%). Stakeholder surveys assessed their concussion knowledge, attitudes toward care seeking, and concussion scenario responses. Surveys administered to student-athletes assessed their concussion care seeking intentions and behaviors. Kruskal-Wallis tests were used to compare responses between stakeholder groups and to determine the differences in student-athlete intentions and behaviors (alpha=0.05). RESULTS: SMPs had significantly better knowledge (p<0.001) and concussion scenario responses (p<0.001) compared to both coaches and parents. SMPs also had significantly better attitudes compared to parents, but not coaches (p=0.038). Coach concussion scenario responses (p=0.044) and SMP knowledge positively influenced student-athletes' concussion care seeking intentions (p=0.049). Parent responses were not associated with their child's concussion care seeking intentions and behaviors. CONCLUSIONS: The gap in coach and parent concussion knowledge and concussion scenario response relative to SMPs is a preliminary target for stakeholder concussion education and supports the current sports medicine model where SMPs primarily disseminate concussion education. Stakeholders, specifically coaches and SMPs, do hold influence over collegiate athlete concussion care seeking intentions and behaviors. RELEVANCE FOR PATIENTS: Stakeholders should be addressed within educational efforts aimed at student-athletes and should also complete stakeholder-specific concussion education.

Best Practices and Current Care Concepts in Prehospital Care of the Spine-Injured Athlete in American Tackle Football March 2-3, 2019; Atlanta, GA.

Sport-related spine injury can be devastating and have long-lasting effects on athletes and their families. Providing evidence-based care for patients with spine injury is essential for optimizing postinjury outcomes. When caring for an injured athlete in American tackle football, clinicians must make decisions that involve unique challenges related to protective equipment (eg, helmet and shoulder pads). The Spine Injury in Sport Group (SISG) met in Atlanta, Georgia, March 2-3, 2019, and involved 25 health care professionals with expertise in emergency medicine, sports medicine, neurologic surgery, orthopaedic surgery, neurology, physiatry, athletic training, and research to review the current literature and discuss evidence-based medicine, best practices, and care options available for the prehospital treatment of athletes with suspected cervical spine injuries.1,2 That meeting and the subsequent Mills et al publication delineate the quality and quantity of published evidence regarding many aspects of prehospital care for the athlete with a suspected cervical spine injury. This paper offers a practical treatment guide based on the experience of those who attended the Atlanta meeting as well as the evidence presented in the Mills et al article. Ongoing research will help to further advance clinical treatment recommendations.

Improving Concussion Reporting across National College Athletic Association Divisions Using a Theory-Based, Data-Driven, Multimedia Concussion Education Intervention.

Although a base level of knowledge is needed to recognize a concussion, knowledge-focused concussion educational materials ignore multifaceted barriers to concussion reporting. We compared student-athlete concussion reporting intentions and behaviors prior to and 1 year after exposure to an intervention or control treatment. We randomly assigned 891 collegiate student-athletes from three universities (Divisions I, II, III) to either the control group (National College Athletic Association [NCAA] Concussion Fact Sheet) or intervention group (theory-based, data-driven, multimedia, simulated concussion reporting module). A final sample of 520 student-athletes (control = 253, intervention = 267, expired eligibility = 189, left university = 182) completed intentions and behaviors surveys immediately prior to and 1 year after the educational intervention, and a second survey to assess the intervention effect. We compared intentions using 2 x 2 mixed model analyses of variance (ANOVAs). Behaviors and educational intervention effect were assessed using logistic regression models (α = 0.05). The intervention group had significantly improved concussion reporting intentions at 1-year follow-up relative to the control group (p = 0.009), but had similar odds for behaviors. The intervention group had 2.42 times greater odds of rating the module as "very effective," rather than "not effective" relative to the control group (95% confidence interval [CI]: 1.10,5.33). Relative to the control group, the intervention group had significantly greater odds of responding that the concussion education "greatly improved" rather than "did not improve" their knowledge (odds ratio [OR]: 2.49, 95% CI:1.25,4.96), attitudes (OR: 2.22, 95% CI: 1.23,4.03), self-efficacy (OR: 1.95,95% CI: 1.05,3.60), and intentions (OR: 1.86,95% CI: 1.03,3.35). The intervention was more effective at targeting elements of the overall sport culture in a way that substantively improved concussion reporting. We recommend use of this intervention in combination with other evidence-based educational materials.

Consensus Recommendations on the Prehospital Care of the Injured Athlete With a Suspected Catastrophic Cervical Spine Injury.

INTRODUCTION: Sports participation is among the leading causes of catastrophic cervical spine injury (CSI) in the United States. Appropriate prehospital care for athletes with suspected CSIs should be available at all levels of sport. The goal of this project was to develop a set of best-practice recommendations appropriate for athletic trainers, emergency responders, sports medicine and emergency physicians, and others engaged in caring for athletes with suspected CSIs. METHODS: A consensus-driven approach (RAND/UCLA method) in combination with a systematic review of the available literature was used to identify key research questions and develop conclusions and recommendations on the prehospital care of the spine-injured athlete. A diverse panel of experts, including members of the National Athletic Trainers' Association, the National Collegiate Athletic Association, and the Sports Institute at UW Medicine participated in 4 Delphi rounds and a 2-day nominal group technique meeting. The systematic review involved 2 independent reviewers and 4 rounds of blinded review. RESULTS: The Delphi process identified 8 key questions to be answered by the systematic review. The systematic review comprised 1544 studies, 49 of which were included in the final full-text review. Using the results of the systematic review as a shared evidence base, the nominal group technique meeting created and refined conclusions and recommendations until consensus was achieved. CONCLUSIONS: These conclusions and recommendations represent a pragmatic approach, balancing expert experiences and the available scientific evidence.

Inter-association task force recommendations on emergency preparedness and management of sudden cardiac arrest in high school and college athletic programs: a consensus statement.

OBJECTIVE: To assist high school and college athletic programs prepare for and respond to a sudden cardiac arrest (SCA). This consensus statement summarizes our current understanding of SCA in young athletes, defines the necessary elements for emergency preparedness, and establishes uniform treatment protocols for the management of SCA. BACKGROUND: Sudden cardiac arrest is the leading cause of death in young athletes. The increasing presence of and timely access to automated external defibrillators (AEDs) at sporting events provides a means of early defibrillation and the potential for effective secondary prevention of sudden cardiac death. An Inter-Association Task Force was sponsored by the National Athletic Trainers' Association to develop consensus recommendations on emergency preparedness and management of SCA in athletes. RECOMMENDATIONS: Comprehensive emergency planning is needed for high school and college athletic programs to ensure an efficient and structured response to SCA. Essential elements of an emergency action plan include establishing an effective communication system, training of anticipated responders in cardiopulmonary resuscitation and AED use, access to an AED for early defibrillation, acquisition of necessary emergency equipment, coordination and integration of onsite responder and AED programs with the local emergency medical services system, and practice and review of the response plan. Prompt recognition of SCA, early activation of the emergency medical services system, the presence of a trained rescuer to initiate cardiopulmonary resuscitation, and access to early defibrillation are critical in the management of SCA. In any collapsed and unresponsive athlete, SCA should be suspected and an AED applied as soon as possible for rhythm analysis and defibrillation if indicated.

Preventing sudden death on the athletic field: the emergency action plan.

Sudden cardiac arrest (SCA) is the leading cause of death in young athletes. Proper management of SCA in the athletic venue is critical. Preparation should include education and training, maintenance of emergency equipment and supplies, appropriate use of personnel, and the formation and implementation of an emergency action plan (EAP). The EAP should be specific to each individual athletic venue and encompass emergency personnel, emergency communication, emergency equipment, medical emergency transportation, and venue directions with map. With SCA, access to early defibrillation is essential. A target goal of under 5 minutes from time of collapse to first shock is strongly recommended. An automated external defibrillator should be part of standard emergency planning for coverage of athletic activities. Through development and implementation of an EAP, healthcare providers help to ensure that the athlete will have the best care provided when an emergency situation does arise.

National Athletic Trainers' Association Position Statement: Preventing and Managing Sport-Related Dental and Oral Injuries.

OBJECTIVE: To provide athletic trainers, health care professionals, and all those responsible for the care of athletes with clinical recommendations for preventing and managing sport-related dental and oral injuries. BACKGROUND: Participation in competitive sports continues to grow at both the interscholastic and intercollegiate levels. Therefore, exposure to, and the incidence of athletic-related injury, including orofacial injury, will also likely increase. At the time of this writing, the leading governing agencies for interscholastic (National Federation of State High School Associations) and intercollegiate (National Collegiate Athletic Association) sports require only protective orofacial equipment (eg, mouthguards) for 5 and 4, respectively, of their sanctioned sports. Although orofacial injuries represent a small percentage of all sport-related injuries, the financial burden associated with these injuries (eg, tooth avulsion) can exceed $15 000 over an adult life. Therefore, effective management of sport-related dental injuries is critical to the long-term financial, physical, and emotional health of people who have experienced dental trauma. RECOMMENDATIONS: Based upon the current evidence regarding sport-related orofacial injury, we provide recommendations related to planning considerations, education, and mouthguard efficacy, material, fabrication, and care considerations. Additionally, suggested best practices for managing sport-related dental injury are also given for athletic trainers and other health care professionals.

Treatment of Head and Neck Injuries in the Helmeted Athlete.

Sport-related concussion treatment includes three major phases: initial evaluation at the time of the injury, treatment while the patient is symptomatic, and evaluation of the readiness for a gradual return to participation. Each concussion evaluation should include similar elements: assessment of symptoms, assessment of cognitive ability, assessment of coordination (of the eyes, upper extremities, and lower extremities), and assessment for additional injuries. The spine-boarding recommendations from the American College of Emergency Physicians, National Association of EMS Physicians, and National Athletic Trainers' Association have changed. These recommendations include both decreased use of spinal immobilization and removal of the helmet and shoulder pads prior to securing the athlete to the board when sufficient numbers of trained providers are present. Preseason training and pregame meetings or "medical time outs" should become standard practice for the sidelines medical team (including the athletic trainer, team physician, emergency response personnel, and possibly others).

Cardiac Emergency Response Planning for Schools: A Policy Statement.

A sudden cardiac arrest in school or at a school event is potentially devastating to families and communities. An appropriate response to such an event-as promoted by developing, implementing, and practicing a cardiac emergency response plan (CERP)-can increase survival rates. Understanding that a trained lay-responder team within the school can make a difference in the crucial minutes between the time when the victim collapses and when emergency medical services arrive empowers school staff and can save lives. In 2015, the American Heart Association convened a group of stakeholders to develop tools to assist schools in developing CERPs. This article reviews the critical components of a CERP and a CERP team, the factors that should be taken into account when implementing the CERP, and recommendations for policy makers to support CERPs in schools.

Spinal trauma.

The practice of spinal immobilization has existed since the 1960s under the premise that trauma victims with cervical spine injuries may suffer neurologic injury if moved without stabilization consisting of a rigid cervical collar and long spine board. Because of this assumption, it is of particular importance to assess for movement of the cervical spine with and without spinal immobilization. Over time, the on-field management of athletes with a mechanism consistent with spinal cord injury (SCI) has evolved and produced protocols that can be considered standard of care. Attempts to find evidencebased research to verify the necessity of a rigid collar and long spine board as the only option in athletic medicine for suspected SCI is difficult. As changes occur in the Emergency Medical Services standards, there will be opportunities to see how their processes relate to athletes and the rationale for immobilization on the field of play. Going forward, there could very well be a significant change in the approach to and management of the athlete down on the field of play with a suspected spinal cord injury.

Evaluation of persistent antimicrobial effects of an antimicrobial formulation.

CONTEXT: Community-acquired methicillin-resistant Staphylococcus aureus (MRSA) is becoming more prevalent in healthy athletic populations. Various preventive measures have been proposed, but few researchers have evaluated the protective effects of a prophylactic application of a commercially available product. OBJECTIVE: To compare the persistent antimicrobial properties of a commercially available antimicrobial product containing 4% chlorhexidine gluconate (Hibiclens) with those of a mild, nonmedicated soap (Dr. Bronner's Magic Soap). DESIGN: Cross-sectional study. SETTING: Microbiology laboratory, contract research organization. PATIENTS OR OTHER PARTICIPANTS: Twenty healthy human volunteers. INTERVENTION(S): The test and control products were randomly assigned and applied to both forearms of each participant. Each forearm was washed for 2 minutes with the test or control product, rinsed, and dried. At, 1, 2, and 4 hours after application, each forearm was exposed to MRSA for approximately 30 minutes. MAIN OUTCOME MEASURE(S): Differences in numbers of MRSA recovered from each forearm, test and control, at each post-application time point were compared. RESULTS: Fewer MRSA (P < .0001) were recovered from the forearms treated with the test product (4% chlorhexidine gluconate) than from the forearms treated with the control product (nonmedicated soap). CONCLUSIONS: The 4% chlorhexidine gluconate product demonstrated persistent bactericidal activity versus MRSA for up to 4 hours after application.

Protective athletic equipment slows initiation of CPR in simulated cardiac arrest.

OBJECTIVE: Standard protective athletic equipment used in collision sports such as American football poses a unique challenge to rescuers because they block access to both the airway and chest. The main objective of this investigation was to determine the effect of athletic equipment on the initiation of CPR. The feasibility of performing compressions over the chest protector as a potential time-saving step was also evaluated. METHODS: Thirty-four certified athletic trainers performed CPR on a manikin wearing protective equipment during a simulated episode of cardiac arrest. For one trial the protective equipment was removed or unfastened prior to initiating CPR, and for another, chest compressions were initiated over the protective equipment. The following were recorded for comparison purposes: time until first breath and first compression; percentage of compressions delivered to the recommended depth; compression rate; accuracy of hand placement; percentage of compressions without full chest recoil. RESULTS: Although chest compressions began sooner when compressions were delivered over the chest protector, this improvement was not statistically significant. A more notable positive outcome resulting from keeping the chest protector on was an increase in the number of compressions that were delivered to the recommended depth. Unfortunately, one of the significant negative outcomes of performing chest compression over the chest pad was the increased percentage of compressions that did not obtain full chest recoil. CONCLUSIONS: Although removal of the chest protector delays the initiation of chest compressions, keeping the chest protector on during CPR does not appear to be a feasible option.