Cervical Spine Injuries in the Athlete

Return to Play After Injuries to the Cervical Spine

Return to play (RTP) after sports-related traumatic injuries to the cervical spine is important for athletes and teams, especially at the elite level. While early RTP may be incentivized for athletes and organizations, treating clinicians must have a thorough understanding of cervical spine injuries, treatments, and RTP guidelines to make safe recommendations. In general, patients can RTP when asymptomatic from prior injury with no neurological deficits and a full, painless, active range of motion of the neck. However, injury diagnosis, injury symptoms and severity, history of cervical spine injuries, anatomic variants/anomalies, history of treatment/surgery, and any ongoing or persistent symptoms may modify RTP recommendations. In the current review, we summarize the common cervical spine injuries associated with contact sports and the available guidelines for RTP. It is important to note, however, that despite these guidelines, there is little consensus among treating physicians regarding these recommendations. Therefore, clinical judgment should be used to ensure conservative decisions are made and patient safety is maintained.

The epidemiology of recreation-related cervical and thoracic fractures

CONTEXT

Recreational activities are frequently associated with spinal fracture, yet contemporary characterization of sports-related cervical and thoracic fracture is lacking.

PURPOSE

To characterize cervical and thoracic fractures associated with recreational activities.

STUDY DESIGN/SETTING

Retrospective cohort study.

PATIENT SAMPLE

The National Electronic Injury Surveillance System (NEISS) database OUTCOME MEASURE AND COMPARISONS: Recreation-related cervical and thoracic fracture incidence rates per year, stratified by age and sex. Common causative activities were established by demographics.

METHODS

The NEISS database was queried to identify patients with recreation-related cervical fractures between 2003 and 2022 and recreation-related thoracic fractures between 2003 and 2022 in patients aged >2 years-old. United States Census data was utilized to generate incidence rates per year. Data was stratified by demographic variables to assess the impact of age and sex on incidence and causative activity.

RESULTS

Between 2003 and 2022, an estimated 13,823 recreation-related cervical fractures occurred with an average annual incidence of 2.20±0.35 per 1 million person-years, while 24,236 estimated recreation-related thoracic fractures occurred from 2003 to 2022 with an average incidence of 3.85±1.26. Males experienced a 3.51 times higher (95% CI 3.38-3.66) rate of cervical fracture, but thoracic fracture rates were similar between sexes. Individuals under 18 experienced a 2.15 times higher rate of thoracic fractures than those aged 18-64 (95% CI 1.85-2.50) and 1.93 times higher rate than those over 65 (95% CI 1.68-2.22). Recreation-related cervical fracture rates in individuals 18-64 was 1.186 (95% CI 1.14-1.23) times higher than those under 18 and rates in those under 18 were 1.15 (95% CI 1.09-1.22) times higher than those over 65. Football (26.6%), horseback riding (19.7%), and skiing (8.35%) were the primary causes of cervical fractures, and horseback riding (46.8%), football (11.2%), and skiing (10.3%) primarily caused thoracic fractures. Cervical fractures resulted primarily from football in males (24.7%) and horseback riding in females (44.0%). Horseback riding primarily caused thoracic fractures in both sexes (males=21.5%, females=74.7%). Football led causative activities for individuals under 18 (Cervical=42.4%, Thoracic=40.7%), while horseback riding dominated among those aged 18-64 (26.7%, 56.7%) and over 65 (52.8%, 67.9%).

CONCLUSIONS

This investigation revealed epidemiological trends in cervical and thoracic spinal fractures and underscore the need for targeted preventive measures and safety interventions to mitigate the burden of these fractures particularly in horseback riding and American football.

LEVEL OF EVIDENCE

Level III.

Management of Sideline Medical Emergencies

Sideline medical care is typically provided by musculoskeletal specialists and orthopaedic surgeons with varying levels of training and experience. While the most common sports injuries are often benign, the potential for catastrophic injury is omnipresent. Prompt recognition of sideline emergencies and expeditious medical management are necessary to minimize the risk of calamitous events. Paramount to successful sideline coverage are both preseason and game-day preparations. Because the skillset needed for the sideline physician may involve management of injuries not commonly seen in everyday clinical practice, sideline providers should review basic life support protocols, spine boarding, and equipment removal related to their sport(s) before the season begins. Before every game, the medical bag should be adequately stocked, location of the automatic external defibrillator/emergency medical services identified, and introductions to the trainers, coaches, and referees made. In addition to musculoskeletal injuries, the sideline orthopaedic surgeon must also be acquainted with the full spectrum of nonmusculoskeletal emergencies spanning the cardiopulmonary, central nervous, and integumentary systems. Familiarity with anaphylaxis as well as abdominal and neck trauma is also critical. Prompt identification of potential life-threatening conditions, carefully orchestrated treatment, and the athlete's subsequent disposition are essential for the team physician to provide quality care.

Epidemiology of Stingers in the National Football League, 2015-2019

BACKGROUND

Transient traumatic neuropraxia of either the brachial plexus or cervical nerve root(s) is commonly described as a "stinger" or "burner" by the athlete. Stingers in American Football commonly occur acutely as isolated injuries; however, concomitant injuries, including cervical spine pathologies, have also been reported.

HYPOTHESIS

Among National Football League (NFL) athletes, the incidence rate of stingers is higher during the regular season than during the preseason and among positions with high velocity impacts such as running backs, linebackers, defensive backs, and receivers.

STUDY DESIGN

Retrospective epidemiology study.

LEVEL OF EVIDENCE

Level 4.

METHODS

Aggregation of all in-game injuries with a clinical impression of "neck brachial plexus stretch" or "neck brachial plexus compression" entered into the NFL injury surveillance database through the centralized league-wide electronic medical record system over 5 years (2015-2019 seasons). Incidence rates per player-play were calculated and reported.

RESULTS

A total of 691 in-game stingers occurred during the study period, with a mean of 138.2 per year. Average single-season injury risk for incident stinger was 3.74% (95% CI, 3.46%-4.05%). The incidence rate was higher during regular season games than during preseason games (12.26 per 100,000 player-plays [11.30-13.31] vs 8.87 [7.31-10.76], P < 0.01, respectively). The highest reported stinger incidence rates were among running backs and linebackers (both >15 per 100,000 player-plays). Among stingers, 76.41% did not miss time. Of those that resulted in time lost from football activities, mean time missed due to injury was 4.79 days (range, 3.17-6.41 days). Concomitant injuries were relatively low (7.09%).

CONCLUSION

In-game stinger incidence was stable across the study period and occurred most frequently in running backs and linebackers. Stingers were more common during the regular season, and most players did not miss time. Concomitant injuries were relatively rare.

CLINICAL RELEVANCE

An improved understanding of the expected time loss due to stinger and concomitant injuries may provide insight for medical personnel in managing these injuries.

Epidemiology and patterns of gymnastics-related head & neck trauma injuries: A NEISS database study

OBJECTIVE

To describe the epidemiology and patterns of gymnastics-related Head & Neck trauma injuries using the NEISS database from 2001 to 2020.

STUDY DESIGN AND SETTING

Cross-sectional analysis of a national database.

METHODS

Gymnastics-related ED visits between 2001 and 2020 were queried from the NEISS database. Bivariate chi-squared analyses were used to compare injury demographics, location, type, and disposition. Fracture location was identified using the narrative description of each case and were divided into subtypes for further analysis.

RESULTS

1455 gymnastics-related head and neck traumatic injuries were identified. The majority were in females (65.8%). The most common presenting age group was pediatric (≤18 years) (92.7%), and the largest racial group was Caucasian (51.5%). Of all location subtypes, facial injuries were the most common presenting injury type overall (45.2%). Regarding injury types, lacerations were most common (36.8%), followed by dental injury (30.7%) and fractures (21.2%). The most common location of head and neck fractures was the nose (45.8%), followed by cervical spine (16.7%) and orbit (13.3%). The majority (95.7%) of gymnastics-related head and neck traumatic injuries presenting to the ED were treated and discharged.

CONCLUSION

This study characterizes gymnastics-related head and neck injuries which is a topic that is under-studied. The findings from this study are helpful for gymnasts and those who care for them including providers, coaches and guardians, and this data may help inform future guidelines for treatment and injury prevention.

Timelines for Return to Different Sports Types After Eight Cervical Spine Fractures in Recreational and Elite Athletes: A Survey of the Association for Collaborative Spine Research

STUDY DESIGN

Prospective cross-sectional survey.

OBJECTIVE

To identify timelines for when athletes may be considered safe to return to varying athletic activities after sustaining cervical spine fractures.

BACKGROUND

While acute management and detection of cervical spine fractures have been areas of comprehensive investigation, insight into timelines for when athletes may return to different athletic activities after sustaining such fractures is limited.

METHODS

A web-based survey was administered to members of the Association for Collaborative Spine Research that consisted of surgeon demographic information and questions asking when athletes (recreational vs elite) with one of 8 cervical fractures would be allowed to return to play noncontact, contact, and collision sports treated nonoperatively or operatively. The third part queried whether the decision to return to sports was influenced by the type of fixation or the presence of radiculopathy.

RESULTS

Thirty-three responses were included for analysis. For all 8 cervical spine fractures treated nonoperatively and operatively, significantly longer times to return to sports for athletes playing contact or collision sports compared with recreational and elite athletes playing noncontact sports, respectively (P< 0.05), were felt to be more appropriate. Comparing collision sports with contact sports for recreational and elite athletes, similar times for return to sports for nearly all fractures treated nonoperatively or operatively were noted. In the setting of associated radiculopathy, the most common responses for safe return to play were "when only motor deficits resolve completely" and "when both motor and sensory deficits resolve completely."

CONCLUSIONS

In this survey of spine surgeons from the Association for Collaborative Spine Research, reasonable timeframes for return to play for athletes with 8 different cervical spine fractures treated nonoperatively or operatively varied based on fracture subtype and level of sporting physicality.

Return to Play, Performance, and Earnings Analysis After Lumbar Disc Herniation in National Hockey League Players

STUDY DESIGN

Retrospective cohort study.

OBJECTIVE

Professional hockey players have a high incidence of lumbar disc herniations (LDH). The purpose of this study was to determine the impact of LDH on the performance and financial earnings of National Hockey League (NHL) players.

METHODS

NHL players who sustained a LDH were retrospectively reviewed utilizing an online database and a 2:1 matched control cohort. Player performance and game usage was compared at one- and three-season(s) pre- and post-injury season within the cohorts. Injured and matched players were divided into 3 groups based on the player's adjusted index season salary.

RESULTS

A total of 181 players were included, with 62 LDH players matched to 119 healthy controls. Return to play after LDH was 79%. The LDH cohort had fewer seasons played throughout their career compared to the matched group (12.5 ± 4.3 vs 14.2 ± 3.8; P = .031). At 1 season post-index, the LDH cohort had significantly fewer goals per 60 and points per 60 when compared to pre-index. At 3 seasons post-index, the LDH cohort exhibited a significant decline in time-on-ice per game played, goals per 60, and points per 60 compared to pre-index.

CONCLUSION

The majority of NHL players who sustained a LDH returned to play (79%) but had shorter careers overall and decreased performance outcomes when compared to matched cohorts at both 1 and 3 seasons post-injury.

Management of Acute Subaxial Trauma and Spinal Cord Injury in Professional Collision Athletes

Sports-related acute cervical trauma and spinal cord injury (SCI) represent a rare but devastating potential complication of collision sport injuries. Currently, there is debate on appropriate management protocols and return-to-play guidelines in professional collision athletes following cervical trauma. While cervical muscle strains and sprains are among the most common injuries sustained by collision athletes, the life-changing effects of severe neurological sequelae (ie, quadriplegia and paraplegia) from fractures and SCIs require increased attention and care. Appropriate on-field management and subsequent transfer/workup at an experienced trauma/SCI center is necessary for optimal patient care, prevention of injury exacerbation, and improvement in outcomes. This review discusses the epidemiology, pathophysiology, clinical presentation, immediate/long-term management, and current return-to-play recommendations of athletes who suffer cervical trauma and SCI.

Epidemiology of atlas fractures in the United States: A 20-year analysis

Introduction:

Fractures of the atlas represent a large portion of cervical spine trauma in the geriatric population. With an aging and more active population, it is expected that the number of patients sustaining atlas fractures is increasing. However, epidemiologic data regarding the incidence of atlas fractures in large populations are scarce. The aim of this study was to investigate the incidence and demographic characteristics of patients with fractures of the atlas in the United States (US) over the last 20 years.

Materials and Methods:

This descriptive epidemiology study retrospectively analyzed the National Electronic Injury Surveillance System database to identify cases of atlas fractures presenting to US Emergency Departments (EDs) from 2001 to 2020. Annual and overall numbers of fractures and fracture incidence rates, patient demographics (age, gender, race), and injury characteristics (mechanism, associated injuries) were analyzed. Incidence rates are expressed as the number of fractures per million at-risk person-years. Patients were split into four different age groups for comparisons (<18, 18–64, 65–79, 80+ years).

Results:

An estimated 38,092 cases of acute atlas fractures were identified, representing 11.1% of all cervical fractures and corresponding to an overall incidence rate of 6.2. Slightly more than half (54%) occurred in females and the mean age was 71 years. Overall, a majority (64%) of cases occurred in patients > 70 years old. There was substantial increase in incidence rate with age (<18 years: 0.7; 18–64 years: 2.6; 65–79 years: 17.1; 80 + years: 71.8). The most common injury mechanism was a low-energy fall (74%). Overall, only 42% of atlas fractures were isolated injuries, with 58% of patients sustaining at least one concomitant injury and 48% sustaining at least one additional fracture. Accounting for population growth yielded a significantly increasing incidence over the study period from 1.7 in 2001 to 13.4 in 2020 (annual percent increase = 11, P < 0.00001). Disproportionately large increases in incidence rates were observed in the oldest patient groups.

Conclusions:

Atlas fractures occur in older patients and are often associated with concomitant injuries to the head and spine. These types of fractures are increasing in the US, especially among the elderly. The annual incidence increased nearly 700% over the course of the study period and in 2020 was over 13 per million overall. In elderly patients >80 years old, the most recent annual incidence rate was over 157 per million.

Transient Quadriparesis and Cervical Neuropraxia in Elite Athletes

Elite athletes are often faced with difficult decisions when faced with a cervical spinal disorder. There are many aspects to consider such as the risk of further injury, short- and long-term effects on an athlete's life both during and after his/her career, and the options for treatment. Although there have been some recent contributions to this topic, the evidence-based literature is generally devoid of high-level clinical studies to help guide the decision-making process. This article reviews the pertinent available data/criteria and offer an algorithm for return-to-play considerations.

Return to Play Guidelines After Cervical Spine Injuries in American Football Athletes: A Literature-Based Review

STUDY DESIGN

Literature-based review.

OBJECTIVE

We sought to evaluate clinical and case studies related to return to play (RTP) after cervical spine injuries in elite American football athletes and to formulate guidelines to help health care practitioners manage these conditions.

SUMMARY OF BACKGROUND DATA

American football athletes are at unique risk of cervical spine injury and appropriate case-by-case management of cervical spine injuries is necessary for these athletes. Despite this need, no standardized guidelines exist for RTP after cervical spine injury.

METHODS

Observational or case-based articles relating to RTP after cervical spine injury in American football athletes were curated from PubMed/EMBASE databases. Primary literature published before December 1, 2019 involving National Football League (NFL) or National Collegiate Athletic Association (NCAA) athletes met inclusion criteria.

RESULTS

The data acquisition process yielded 28 studies addressing cervical spine injuries and RTP in American football athletes. Stingers/burners were the most common injury and placed athletes at higher risk of a more severe re-injury. Transient quadriplegia, cervical stenosis, cervical disc herniation (CDH), and cervical fractures have a more significant impact on the long-term health and career longevity of the American football athlete. As such, the literature offers some guidance for management of these athletes, including average time for RTP in patients treated nonoperatively, thresholds involving cervical stenosis, and postoperative recommendations after spinal decompression and/or fusion surgery.

CONCLUSION

Elite American football athletes are at high risk for cervical spine injury due to the nature of their sport. The decision to allow these athletes to return to play should involve an understanding of the average RTP time, the potential risks of recurrence or re-injury, and individual characteristics such as position played and pathology on imaging.Level of Evidence: 3.

Spinal Fractures Incurred by Sports-Related Injuries

BACKGROUND

Sports-related injuries are the third commonest cause of spine fractures. Spinal fractures incurred as a result of partaking in sport by their nature are different from those associated with frailty and road traffic accidents. The patient demographics and nature of fractures associated with sports activities are not well documented. We aim to describe the management and outcome of patients with a sports-related spine fracture in a single U.K. major trauma center in a 6-year time period.

METHODS

Patients with sports-related spinal fractures were identified from the Trauma Audit and Research Network database at a U.K. major trauma center between January 2011 and December 2016. Patient notes were retrospectively reviewed for demographics, injury severity score, treatment, complications, and outcomes.

RESULTS

In the study period, 122 patients were admitted with a sports-related spinal fracture, sustaining a total of 230 fractures. Of these, 48 (20.9%) were in the cervical, 79 (34.3%) in the thoracic, and 103 (44.8%) in the lumbar regions. The sports most commonly associated with spinal fractures were horse riding (n = 55), cycling (n = 36), and boating (n = 10). Of the 230 fractures, 32 (13.9%) were associated with neurologic injury. Forty-five of the 230 fractures (19.6%) were managed surgically, and the remainder were managed conservatively.

CONCLUSIONS

Within our population, sports most commonly associated with spinal fractures were horse riding, cycling, and boating. The majority of cases were managed nonoperatively. Further research is required to establish evidence-based guidelines on the management of sports-related spinal fractures.

The Prevalence and Management of Stingers in College and Professional Collision Athletes

PURPOSE OF REVIEW

Particularly common in collision sports such as American football or rugby, stingers are a traumatic transient neuropraxia of a cervical nerve root(s) or brachial plexus that may last anywhere from minutes to hours. This review summarizes the knowledge on the diagnosis and management of stingers in college and professional collision athletes by providing an overview of their epidemiology and pathophysiology, followed by a discussion on current treatment guidelines and return-to-play recommendations.

RECENT FINDINGS

Despite modifications to tackling technique, increasing awareness, and various equipment options, American football continues to have a high rate of cervical spine injuries, the majority of which occur in preseason and regular season competition settings. The incidence of stingers has slowly increased among collision athletes, and nearly half of all players report sustaining at least one stinger in their career. Recent studies have shown certain anatomical changes in the cervical spine are related to acute and reoccurring stingers. Most players who experience stingers do not miss practices or games. Despite their prevalence, literature highlighting the impact of stingers on college and professional collision athletes is limited. Advances in imaging modalities and novel radiographic parameters have provided tools for screening athletes and can guide return-to-play decisions. Future research regarding appropriate screening practices for athletes with reoccurring stingers, use of protective equipment, and rehabilitation strategies are needed to identify predisposing factors, mitigate the risk of injury, and restore full functional strength and ability.

Prevalence of sports-related spinal injury stratified by competition level and return to play guidelines

Spinal injury is among the most severe and feared injuries an athlete may face. We present an up-to-date review of the recent literature, stratifying recommendations based on injury location (cervical, thoracic, and lumbar spine) and type, as well as, the level of competitive play (high school, collegiate, professional). A literature search was completed to identify all publications reporting return to play guidelines for athletic injuries or injury-related surgery irrespective of the study design. Publication dates were not restricted by year. Search terms used included "return to play" and "spinal injury" on National Library of Medicine (PubMed) and Google Scholar. Selection criteria for literature included axial spine injury guidelines for athletic participation post-injury or post-surgery. Literature found from the search criteria was sorted based on level of competition and location of axial spine injury involved. It was found that professional athletes are more likely to suffer severe spinal injuries, require surgery, and necessitate a longer return to play (RTP), with high school and college athletes usually returning to play within days or weeks. Injuries occur mainly within contact sports and concordance exists between initial and subsequent spinal injuries. Adequate rest, rehabilitation, and protective equipment alongside the education of athletes and coaches are recommended. In conclusion, a multidisciplinary approach to patient management is required with consideration for the emotional, social, and perhaps financial impact that spinal injury may have upon the athlete. Consensus from the literature states that in order for an athlete to safely return to play, that athlete should not be actively suffering from pain, should have a full range of motion, and complete return of their strength in the absence of neurological deficit.

Updated Return-to-Play Recommendations for Collision Athletes After Cervical Spine Injury: A Modified Delphi Consensus Study With the Cervical Spine Research Society

BACKGROUND

Previous studies have attempted to establish return-to-play (RTP) guidelines in collision sport athletes after cervical spine injury; however, recommendations have been limited by scant high-quality evidence and basic consensus survey methodologies.

OBJECTIVE

To create relevant clinical statements regarding management in collision sport athletes after cervical spine injury, and establish consensus RTP recommendations.

METHODS

Following the modified Delphi methodology, a 3 round survey study was conducted with spine surgeons from the Cervical Spine Research Society and National Football League team physicians in order to establish consensus guidelines and develop recommendations for cervical spine injury management in collision sport athletes.

RESULTS

Our study showed strong consensus that asymptomatic athletes without increased magnetic resonance imaging (MRI) T2-signal changes following 1-/2- level anterior cervical discectomy and fusion (ACDF) may RTP, but not after 3-level ACDF (84.4%). Although allowed RTP after 1-/2-level ACDF was noted in various scenarios, the decision was contentious. No consensus RTP for collision athletes after 2-level ACDF was noted. Strong consensus was achieved for RTP in asymptomatic athletes without increased signal changes and spinal canal diameter &gt;10 mm (90.5%), as well as those with resolved MRI signal changes and diameter &gt;13 mm (81.3%). No consensus was achieved in RTP for cases with pseudarthrosis following ACDF. Strong consensus supported a screening MRI before sport participation in athletes with a history of cervical spine injury (78.9%).

CONCLUSION

This study provides modified Delphi process consensus statements regarding cervical spine injury management in collision sport athletes from leading experts in spine surgery, sports injuries, and cervical trauma. Future research should aim to elucidate optimal timelines for RTP, as well as focus on prevention of injuries.

Neck and Cervical Spine Injuries in National College Athletic Association Athletes: A 5-Year Epidemiologic Study

STUDY DESIGN

Descriptive epidemiology study.

OBJECTIVE

The purpose of this study was to describe the epidemiology of neck and cervical spine injuries in collegiate athletes over a 5-year period.

SUMMARY OF BACKGROUND DATA

The incidence and etiology of neck and cervical spine injuries in National Collegiate Athletic Association (NCAA) athletes has not been well defined in recent years.

METHODS

The incidence and characteristics of neck and cervical spine injuries were identified utilizing the NCAA Injury Surveillance Program database. Rates of injury were calculated as the number of injuries divided by the total number of athlete-exposures (AEs). AEs were defined as any student participation in one NCAA-sanctioned practice or competition.

RESULTS

Nationally, there were an estimated 11,510 neck and cervical spine injuries over the 5-year period. These occurred at a rate of 7.05 per 100,000 athlete-exposures (AEs). The rate of neck and cervical spine injuries in men was 2.66 per 100,000 AEs, while women suffered injuries at a rate of 1.95 per 100,000 AEs. In sex-comparable sports, men were 1.36 times more likely to suffer a neck or cervical spine injury compared with women. Men's football (29.09 per 100,000 AEs) and women's field hockey (11.51 per 100,000 AEs) were the sports with the highest rates of injuries. These injuries were 3.94 times more likely to occur during competition compared with practice. In-season injury rates were the highest, at 8.18 per 100,000 AEs.

CONCLUSION

The vast majority of neck and cervical spine injuries in NCAA athletes are minor and uncommon. Across all sports in both sexes, the majority of injuries were new, and occurred during in-season competitions. Most athletes returned to play within 24 hours of injury. These data can inform players, parents, coaches, athletic trainers, and physicians regarding the prevalence and rates of these injuries and potentially inform decision-making regarding injury prevention, treatment, and rehabilitation.

LEVEL OF EVIDENCE

4.

Catastrophic Return to Play in Rugby After Double Cervical Arthrodesis

For high-level athletes, most experts consider that 1-level arthrodesis in cervical spine surgery does not prevent return to play. Nevertheless, return remains controversial in cases of 2-level fusions. We report the case of a 27-year-old professional rugby player. He had had a double cervical fusion C5C6 and C6C7 for cervical hernia and was allowed to continue rugby activities afterward. Four years after this surgery, his neck was forced in hyperflexion during a match and complete tetraplegia occurred. A computed tomography scan showed a C3C4 unilateral facet dislocation. The patient was rapidly operated on. At follow-up, 2 years after the accident, the patient remained tetraplegic with no neurologic improvement. If no definitive conclusion can be established on this first observation, many precautions must be taken before a return-to-play decision, especially in contact sports.

Traumatic Brachial Plexopathy in Athletes: Current Concepts for Diagnosis and Management of Stingers

Traumatic upper trunk brachial plexopathy, also known as a stinger or burner, is the most common upper extremity neurologic injury among athletes and most commonly involves the upper trunk. Recent studies have shown the incidence of both acute and recurrent injuries to be higher in patients with certain anatomic changes in the cervical spine. In addition, despite modern awareness, tackling techniques, and protective equipment, some think the incidence to be slowly on the rise in contact athletes. The severity of neurologic injury varies widely but usually does not result in significant loss of playing time or permanent neurologic deficits if appropriate management is undertaken. Timely diagnosis allows implementation of means to minimize the risk of recurrent injury. It is important for treating physicians to understand the pathogenesis, evaluation, and acute and long-term management of stingers to improve recovery and minimize chronic sequela.

Controversies in the Management of Cervical Spine Conditions in Elite Athletes

Cervical spine injuries in elite athletes can have detrimental consequences, which makes return to play for professional athletes after cervical spine injury controversial. Although most athletes can return to sport under some circumstances, such as single-level anterior cervical diskectomy and fusion for cervical disk herniation, return to play after cervical disk arthroplasty and multilevel fusion for cervical disk herniation remains controversial. Allowing athletes to return to play after a finding of cervical stenosis and in the incidence of pseudarthrosis remains unclear. This review provides a systematic framework to guide return-to-play decision-making in common cervical conditions in elite athletes. [Orthopedics. 2019; 42(4):e370-e375.].

Epidemiology of Cervical Injuries in NCAA Football Players

STUDY DESIGN

Descriptive epidemiology study.

OBJECTIVE

The purpose of this study was to describe the epidemiology of cervical spine injuries in collegiate football players.

SUMMARY OF BACKGROUND DATA

The incidence and etiology of cervical spine injuries in National Collegiate Athletic Association (NCAA) football players has not been well defined in recent years.

METHODS

The incidence and characteristics of cervical spine injuries were identified utilizing the NCAA-ISP database. Rates of injury were calculated as the number of injuries divided by the total number of athlete-exposures (AEs). AEs were defined as any student participation in one NCAA-sanctioned practice or competition.

RESULTS

An estimated 7496 cervical spine injuries were identified. Of these, 85.6% were categorized as new injuries. These occurred at a rate of 2.91 per 10000 AEs. Stingers were most common (1.87 per 10000 AEs) followed by cervical strains (0.80 per 10000 AEs). Injuries were nine times more likely to occur during competition when compared with practice settings. When compared with the regular season, the relative risks of sustaining a cervical spine injury during the preseason and postseason were 0.69 (95% CI 0.52-0.90) and 0.39 (95% CI 0.16-0.94), respectively. The rate of cervical spine injuries was highest in Division I athletes. Direct contact-related injuries were most common, representing 90.8% of all injuries sustained. Injuries were most common in linebackers (20.3%) followed secondarily by defensive linemen (18.2%). Most players returned to play within 24 hours of the initial injury (64.4%), while only 2.8% remained out of play for > 21 days.

CONCLUSION

Fortunately, the rate of significant and disabling cervical spine injuries appears to be low in the NCAA football athlete. The promotion of safer tackling techniques, appropriate modification of protective gear, and preventive rehabilitation in these aforementioned settings is of continued value.

LEVEL OF EVIDENCE

4.

Examining the Presence of Back Pain in Competitive Athletes: A Focus on Stress and Recovery

CONTEXT

Explanatory approaches for back pain (BP) in athletes focus on biomechanical factors while neglecting psychological perspectives. Psychological factors have gained importance in the prediction of injuries in athletes and BP in the general population, with stress and recovery emerging as central risk factors. However, scarce evidence exists regarding the role of these aspects for the prevalent burden of BP.

OBJECTIVE

To investigate the association between stress and recovery parameters and the presence of BP.

DESIGN

Cross-sectional design.

SETTING

The questionnaires were distributed after the training sessions.

PARTICIPANTS

A total of 345 competitive athletes (mean age = 18.31 y [SD = 5.40]) were investigated. The classification of the athletes' competitive status was based on performance level.

INTERVENTIONS

Data were collected using questionnaires for the assessment of stress, recovery, and BP.

MAIN OUTCOME MEASURES

The authors performed a multiple logistic regression to obtain odds ratios for stress and recovery parameters with regard to the outcome variable BP status.

RESULTS

For stress, the dimension "overall stress" (odds ratio = 1.83; 95% confidence interval, 1.30-2.59; P = .001) and the scale "physical complaints" (odds ratio = 1.68; 95% confidence interval, 1.25-2.25; P = .001) of the general version of the Recovery-Stress Questionnaire resulted to be significantly associated with BP. None of the recovery-related scales displayed a statistically significant relationship with BP.

CONCLUSION

The outcomes of this study imply a modest association between stress and the presence of BP in competitive athletes. Practitioners may take these findings into account regarding the conception of training and for monitoring purposes.

Sex- and Sport-Specific Epidemiology of Cervical Spine Injuries Sustained During Sporting Activities

BACKGROUND

Although several investigations have examined the epidemiology of cervical spine injuries in sports, few studies have analyzed the nationwide incidence and sex-specific epidemiology of cervical spine injuries.

METHOD

The National Electronic Injury Surveillance System database, which collects information on patients presenting to the emergency department at 100 hospitals across the United States, was queried for neck sprains and cervical fractures associated with sporting activities from 2000-2015.

RESULT

A total of 26,380 neck sprains and 1166 fractures were identified. Compared with females, the incidence for injuries in males was 1.7 times greater for neck sprains and 3.6 times greater for fractures (P < 0.0001). Football was the most common cause of cervical sprains in males, followed by cycling and weightlifting/aerobics. Females sustained most neck sprains in weightlifting/aerobics, trampoline, and cheerleading. From 2000 to 2015, the incidence of neck sprains from aerobics increased from 15.5 to 25.3 per million person-years (P < 0.0001). Similarly, the incidence of cervical fractures from cycling increased from 0.67 to 2.7 per million (P < 0.0001). For males, cycling was the most common cause of fracture, followed by diving/swimming and football. For females, horseback riding was most common, followed by cycling and diving/swimming.

CONCLUSIONS

Football is the leading cause of cervical sprains in the United States. The most common cause of cervical fracture in men is cycling, while in women it is horseback riding. The incidence of sport-related cervical fractures has increased by 35% from 2000 to 2015, which has been driven by an increase in cycling-related injuries.

The process of non-resilience in a spinal cord injury population in Iran: a grounded theory

Aims/Background:

Rehabilitation of spinal cord injury focuses on resilience in all aspects of daily living. In order to improve functional outcomes, obstacles to achieving resilience must be recognised. This study explored the process of non-resilience in a spinal cord injury population in Iran.

Methods:

This qualitative study was part of a grounded theory study. The experiences of 24 participants, including 16 people with spinal cord injury, and 8 people with spinal care experience (3 caregivers, 2 occupational therapists, 1 physiotherapist, 1 social worker and 1 nurse), were explored through in-depth, semi-structured interviews. All interviews were recorded, transcribed verbatim and analysed using constant comparative analysis.

Findings:

Seven main concepts emerged from analysis of the interviews: lack of essential knowledge, dependence, psychosexual preoccupation, confusion, lack of accommodation, inappropriate feedback, and inability to adapt. Social deprivation was found to be the participants' main concern.

Conclusion:

Resilience requires adaptation in all areas of daily living. Detecting barriers to resilience is important in planning rehabilitation programmes in people with a spinal cord injury. Improving social support for people with a spinal cord injury can promote their mobility within the community and mental health.

Acute management of cervical spine trauma

Traumatic cervical spine injuries represent a significant cause of morbidity and mortality in sports. Appropriate management of such injuries is critical to minimizing harm and facilitating optimal long-term recovery and outcome. Management strategies begin with emergency preparedness amongst sideline providers and extends to paramedic services and medical teams in the acute care setting. This chapter outlines the principles of treatment across the care continuum, with a primary focus on hospital-based care. Diagnostic imaging and equipment considerations are reviewed, with discussion of corticosteroid administration, therapeutic hypothermia, and traction of the cervical spine. Approaches to cervical spine stabilization and return to play are also detailed, with an emphasis on patient-centered care and individualized treatment approaches to the athlete.