Upper trunk brachial plexopathy. The stinger syndrome

Common sports-related nerve injuries seen by the electrodiagnostic medical consultant

The high physiologic demands of sports create dynamic stress on joints, soft tissues, and nerves which may lead to injuries in the athlete. Electrodiagnostic (EDx) assessment is essential to identify the correct diagnosis, localization, and prognosis, to guide management of sports-related neuropathies. A comprehensive review was performed to provide the EDx medical consultant with a practical approach to the common peripheral nerve disorders seen in athletes. Sports-related neuropathies reviewed include transient traumatic irritation of the brachial plexus and/or cervical nerve roots ("Burners and stingers,") suprascapular and axillary neuropathies, ulnar neuropathy at the elbow (UNE) in throwers, ulnar neuropathy at the hand/wrist in cyclists, multi-ligamentous knee injury, and foot/ankle neuropathies including tarsal tunnel syndrome. A thorough understanding of peripheral anatomy, possible entrapment sites, mechanisms of injury, and key physical examination findings is essential for correct diagnosis. EDx assessments beyond routine studies are generally required for sports-related neuropathy, which may not necessarily follow typical entrapment patterns. Adjunct diagnostic imaging, such as point-of-care ultrasound and magnetic resonance imaging, are helpful tools to identify associated musculoskeletal pathology such as compressive cysts or nerve entrapment, which may be amenable to interventional or surgical treatment. When no clear reversible structural pathology exists, management of sports-related neuropathy is athlete-specific and generally multi-modal, involving a combination of physical rehabilitation techniques to address muscle imbalances, load management, protective equipment, and interventional pain procedures.

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.

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.

Parsonage-Turner syndrome, affecting suprascapular nerve and especially to infraspinatus muscles after COVID-19 vaccination in a professional wrestler, a case report and literature review of causes and treatments

BACKGROUND

Acute peripheral neuropathy, also known as Parsonage-Turner syndrome or neuralgic amyotrophy, mostly affects the upper brachial plexus trunks, which include the shoulder girdle. It is typically accompanied by abrupt, intense pain, weakness, and sensory disruption. The etiology and causes of this disease are still unknown because of its low prevalence, however viral reactions-induced inflammation is one of its frequent causes.

CASE PRESENTATION

Here, we introduce a professional wrestler patient who was diagnosed with PTS after vaccination and was treated, and we review some articles in this field.

CONCLUSION

When it comes to shoulder-girdle complaints and pain, Parsonage-Turner syndrome can be a differential diagnosis. Corticosteroids during the acute period, followed by physical therapy, appear to be an efficient way to manage pain, inflammation, muscular atrophy, and the process of recovering to full nerve regeneration.

Sports-related peripheral nerve injuries of the upper limb

Peripheral nerve injuries in athletes affect the upper limb more commonly than the lower limb. Common mechanisms include compression, traction, laceration, and ischemia. Specific sports can have unique mechanisms of injury and are more likely to be associated with certain neuropathies. Familiarity with these sport-specific variables and recognition of the common presentations of upper limb neuropathic syndromes are important in assessing an athlete with a suspected peripheral nerve injury. Evaluation may require imaging modalities and/or electrodiagnostic testing to confirm a nerve injury. In some cases, diagnostic injections may be needed to differentiate neuropathic versus musculoskeletal etiology. Early and accurate diagnosis is essential for treatment/management and increases the likelihood of a safe return-to-sport and avoidance of long-term functional consequences. Most nerve injuries can be treated conservatively, however, severe or persistent cases may require surgical intervention. This monograph reviews key diagnostic, management, and preventative strategies for sports-related peripheral nerve injuries involving the upper limb.

On-Field Management of Suspected Spinal Cord Injury

Acute spinal cord injuries in athletes are rare. However, on-field management of such injuries requires a well-planned approach from a team of well-trained medical staff. Athletes wearing protective gear should be handled with care; a primary survey should be conducted to rule out life-threatening injury while concomitantly immobilizing the spine. Treatment with steroids or hypothermia have not been shown to be beneficial, ultimately time to surgery provides the athlete with the best chance of a good outcome.

Return to Play for Cervical and Lumbar Spine Conditions

Although the safety of contact sports has improved over the years, participation in any sport always carries a risk of injury. When cervical or lumbar spine injuries do occur, prompt diagnosis is essential, and athletes must be held out of the sport if indicated to prevent further harm and allow for recovery. This article highlights some of the most common cervical spine pathologies (stinger/burners, strain, stenosis/cord neuropraxia, disc herniation, and fracture/instability) and lumbar spine pathologies (strain, disc degeneration, disc herniation, fracture, spondylolysis/spondylolisthesis, and scoliosis) encountered in sports and reviews the associated return to play guidelines and expectations for each condition.

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.

Brachial Plexus Injuries in Sport Medicine: Clinical Evaluation, Diagnostic Approaches, Treatment Options, and Rehabilitative Interventions

The brachial plexus represents a complex anatomical structure in the upper limb. This "network" of peripheral nerves permits the rearrangement of motor efferent fibers, coming from different spinal nerves, in several terminal branches directed to upper limb muscles. Moreover, afferent information coming from different cutaneous regions in upper limb are sorted in different spinal nerves through the brachial plexus. Severe brachial plexus injuries are a rare clinical condition in the general population and in sport medicine, but with dramatic consequences on the motor and sensory functions of the upper limb. In some sports, like martial arts, milder injuries of the brachial plexus can occur, with transient symptoms and with a full recovery. Clinical evaluation represents the cornerstone in the assessment of the athletes with brachial plexus injuries. Electrodiagnostic studies and imaging techniques, like magnetic resonance and high-frequency ultrasound, could be useful to localize the lesion and to define an appropriate treatment and a functional prognosis. Several conservative and surgical techniques could be applied, and multidisciplinary rehabilitative programs could be performed to guide the athlete toward the recovery of the highest functional level, according to the type of injury.

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.

Cervical Intervertebral Disc Degeneration and Low Cervical Extension Independently Associated With a History of Stinger Syndrome

Background:

Stinger syndrome frequently occurs in athletes who compete in collision sports. Sharp pain and impairment of neck motion are major symptoms. Cervical intervertebral disc degeneration (CIDD) is also frequently observed in those who compete in collision sports.

Purpose/Hypothesis:

To investigate whether CIDD and neck functionality are related to a history of stinger syndrome. The hypothesis was that a significant relationship exists between CIDD and neck motion and a history of stinger syndrome in Japanese collegiate football players.

Study Design:

Cross-sectional study; Level of evidence, 3.

Methods:

A total of 49 male Japanese collegiate football players (mean age, 20.0 ± 1.1 years; mean athletic experience, 3.8 ± 2.3 years; mean height, 172.3 ± 4.8 cm; mean weight, 83.1 ± 12.2 kg) were subdivided into athletes with stinger syndrome (stinger group) and those without (control group). Stinger syndrome was confirmed based on a questionnaire and interview. CIDD was assessed by using T2-weighted magnetic resonance imaging. Range of motion (ROM) and isometric muscle strength were measured for neck function testing.

Results:

Thirty-nine percent (19/49) of athletes had at least 1 episode of stinger syndrome. The prevalence of CIDD was significantly higher in the stinger group (68%) than in the control group (30%) (P < .01). A statistically significant difference in cervical extension ROM was found between the stinger group (50.9° ± 11.1°) and the control group (60.2° ± 11.4°) (P < .01). Logistic regression analysis showed that CIDD and low cervical extension were independently associated with a history of stinger syndrome.

Conclusion:

Study results suggest that stinger syndrome is associated with CIDD and low cervical extension in collegiate football players.

Recurrent stingers in an adolescent American football player: dilemmas of return to play. A case report and review of the literature

We present the case of a 16-year-old football linebacker with a history of recurrent stingers. Initial physical examination was normal as were cervical spine radiographs. MRI of the cervical spine revealed relative stenosis. Electrodiagnostic testing revealed chronic bilateral neurogenic changes of the superior trunk of the brachial plexus. A Kerr Collar was obtained to minimize head acceleration and force transmission through the neck. While there are return-to-play guidelines for recurrent stingers, there are inconsistencies with those recommendations. Our case highlights the challenges in contact sport athletes with recurrent stingers.

Upper Trunk Brachial Plexus Palsy Following Chiropractic Manipulation

Introduction

Upper trunk brachial plexus palsy can result from high-energy trauma and has never been reported following spinal manipulation.

Background

The case is presented of a patient who developed an acute brachial plexus upper trunk palsy following spinal manipulative therapy.

Discussion

Discussion is made on the incidence of complications following manipulation and recommendations to prospectively capture all serious complications.

Concluding remarks

Risks exist with spinal manipulative therapy. Neurological injury can occur. Risk assessment and re-examination should occur at every visit. Large rigorous prospective studies are required to identify the true incidence of serious complications resulting from manipulative therapy and the benefit:risk ratio.

Severe Brachial Plexus Injuries in American Football

This article reports a series of severe permanent brachial plexus injuries in American football players. The authors describe the mechanisms of injury and outcomes from a more contemporary treatment approach in the form of nerve transfer tailored to the specific injuries sustained. Three cases of nerve transfer for brachial plexus injury in American football players are discussed in detail. Two of these patients regained functional use of the extremity, but 1 patient with a particularly severe injury did not regain significant function. Brachial plexus injuries are found along a spectrum of brachial plexus stretch or contusion that includes the injuries known as "stingers." Early identification of these severe brachial plexus injuries allows for optimal outcomes with timely treatment. Diagnosis of the place of a given injury along this spectrum is difficult and requires a combination of imaging studies, nerve conduction studies, and close monitoring of physical examination findings over time. Although certain patients may be at higher risk for stingers, there is no evidence to suggest that this correlates with a higher risk of severe brachial plexus injury. Unfortunately, no equipment or strengthening program has been shown to provide a protective effect against these severe injuries. Patients with more severe injuries likely have less likelihood of functional recovery. In these patients, nerve transfer for brachial plexus injury offers the best possibility of meaningful recovery without significant morbidity. [ Orthopedics. 2016; 39(6):e1188-e1192.].

Cervical Spine Injuries in the Athlete

Cervical spine injuries are extremely common and range from relatively minor injuries, such as cervical muscle strains, to severe, life-threatening cervical fractures with spinal cord injuries. Although cervical spine injuries are most common in athletes who participate in contact and collision sports, such as American football and rugby, they also have been reported in athletes who participate in noncontact sports, such as baseball, gymnastics, and diving. Cervical spine injuries in athletes are not necessarily the result of substantial spine trauma; some athletes have chronic conditions, such as congenital stenosis, that increase their risk for a serious cervical spine injury after even minor trauma. Therefore, physicians who cover athletic events must have a thorough knowledge of cervical spine injures and the most appropriate ways in which they should be managed. Although cervical spine injuries can be career-ending injuries, athletes often are able to return to play after appropriate treatment if the potential for substantial re-injury is minimized.

Return-to-Play Recommendations After Cervical, Thoracic, and Lumbar Spine Injuries: A Comprehensive Review

CONTEXT

Currently, there is a national focus on establishing and disseminating standardized guidelines for return to play for athletes at all levels of competition. As more data become available, protocols and guidelines are being refined and implemented to assist physicians, coaches, trainers, players, and parents in making decisions about return to play. To date, no standardized criteria for returning to play exist for injuries to the spine.

EVIDENCE ACQUISITION

Electronic databases including PubMed and MEDLINE and professional orthopaedic, neurosurgical, and spine organizational websites were reviewed between 1980 and 2015.

STUDY DESIGN

Clinical review.

LEVEL OF EVIDENCE

Level 4.

RESULTS

Although clinical guidelines have been published for return to play after spine injury, they are almost exclusively derived from expert opinion and clinical experience rather than from well-designed studies. Furthermore, recommendations differ and vary depending on anatomic location, type of sport, and surgery performed.

CONCLUSION

Despite a lack of consensus and specific recommendations, there is universal agreement that athletes should be pain free, completely neurologically intact, and have full strength and range of motion before returning to play after spinal injury.

Return to play after cervical spine injury in sports

Spinal cord injuries (SCIs) resulting from sports now represent 8.9% of the total causes of SCI. Regardless of cause, there are bound to be return-to-play decisions to be made for athletes. Since catastrophic cervical spine injuries are among the most devastating injuries in all of sports, returning from a cervical spine injury is one of the most difficult decisions in sports medicine. Axial loading is the primary mechanism for catastrophic cervical spine injuries. Axial loading occurs as a result of intentional or unintentional head-down contact and spearing. Most would agree that the athlete returning to a contact or collision sport after a cervical spine injury must be asymptomatic, have full strength, and have full active range of motion; however, each situation is unique. The following review discusses the pathophysiology of these conditions and suggests guidelines for return to contact sports after traumatic cervical SCI.

Brachial neuropraxia in Canadian Atlantic University sport football players: what is the incidence of "stingers"?

OBJECTIVES

The objectives of this study were (1) to determine the incidence of brachial neuropraxia (stingers) among varsity football players during the 2010 season; (2) to determine if associations exist between sustaining a stinger and previous history of stingers, years played, equipment, age, body mass index (BMI), and conditioning; and (3) to provide descriptive statistics regarding stingers and position played, symptoms, activity during injury, mechanism of tackling, and reporting of stingers.

DESIGN

Retrospective.

SETTING

Canadian Atlantic University Sport football league.

PARTICIPANTS

Two hundred forty-four players.

ASSESSMENT OF RISK FACTORS

Two written questionnaires.

MAIN OUTCOME MEASURES

Number of players experiencing stingers that occurred during the 2010 season.

RESULTS

The incidence was 26% (64 of 244). A multivariate analysis revealed that previous history of a stinger (P < 0.0001) and years played (P = 0.0018) were associated with sustaining a stinger. There was no statistically significant effect related to additional equipment, a player's age, BMI, or participation in a strength training program. Linebackers, offensive linemen, and wide receivers had the highest incidence of stingers. The most frequent symptoms reported were tingling, numbness, burning, and weakness. Of all stingers sustained, only 59% (38 of 64) were reported to medical staff.

CONCLUSIONS

Stingers are a common injury in Canadian university football and are underreported to medical staff. Education of players at increased risk is needed.

Massive rotator cuff tear in an adolescent athlete: a case report

Full-thickness rotator cuff tears in the young athlete are a rare injury. These injuries typically result from an acute traumatic event in a contact athlete, as opposed to overuse injuries more commonly seen in throwing athletes. Acute tears may be initially overlooked, with the symptoms attributed to other, more common causes, such as cuff contusion or brachial plexus neuropraxia (“stinger” or “burner”). If undiagnosed, the tear may progress to an irreparable state at the time of eventual diagnosis. Therefore, rotator cuff tear must be included in the differential for acute shoulder injuries in the young athlete. This article presents a case of an adolescent athlete with a traumatic, massive rotator cuff tear that was diagnosed and managed promptly with excellent outcome.

Lower Cervical Posterior Element Fractures in the National Football League: A Report of 2 Cases and a Review of the Literature

BACKGROUND AND IMPORTANCE:

Injuries in professional football players are common because of the nature of the collisions and the frequency of axial loading to the cervical spine. These injuries should be thoroughly evaluated because they can put the player at risk of future injury and even paralysis. The focus of this report is to present 2 cases of this injury and review the current body of literature.

CLINICAL PRESENTATION:

We present 2 cases of professional football players who experienced injuries to the lower posterior elements of their cervical spine simultaneously on a kickoff during a game. Both players described transient symptoms consistent with a “stinger,” which is commonly encountered. Workup revealed fractures of the lower cervical spine in both patients. One patient was able to be managed conservatively and returned to football the following season. The second patient had an unstable fracture that ultimately required operative intervention, and the patient retired from professional football.

CONCLUSION:

Cervical spine injuries in football players need to be adequately evaluated, and in many cases can be career threatening. We recommend that players with persistent pain after a transient neurapraxia undergo radiography and computed tomography of the cervical spine to evaluate for a fracture.

The effects of a rugby playing season on cervical range of motion

Rugby players have a reduced active cervical range of motion (ACROM) mid-season compared with age-matched controls. This is most evident in rugby forwards, who have ACROM similar to patients with acute whiplash. This study aims to show if the change in ACROM over an entire rugby season (pre-, mid-, and end of season) shows a pattern of decline. A cross-sectional study of 22 rugby players (11 backs aged 24.9 +/- 1.3 years; 11 forwards aged 24.5 +/- 1.1 years) from elite English Premiership clubs had their cervical range of motion measured for flexion, extension, left and right side flexion, plus left and right rotation with a cervical range of motion device. The percentage change between start to mid-season, mid- to end of season, and start to end of season were calculated. Group means were compared for absolute ACROM (degrees) and percentage change over the season. The percentage change indicated a decrease in ACROM over the rugby playing season, with most of the decrement occurring in the second half of the season. Most of the relative change was observed in right lateral flexion, while rotation did not change significantly. In conclusion, ACROM declines throughout the playing season, which requires attention in terms of training and rehabilitation.

Cervical spine injuries in American football

American football is a high-energy contact sport that places players at risk for cervical spine injuries with potential neurological deficits. Advances in tackling and blocking techniques, rules of the game and medical care of the athlete have been made throughout the past few decades to minimize the risk of cervical injury and improve the management of injuries that do occur. Nonetheless, cervical spine injuries remain a serious concern in the game of American football. Injuries have a wide spectrum of severity. The relatively common 'stinger' is a neuropraxia of a cervical nerve root(s) or brachial plexus and represents a reversible peripheral nerve injury. Less common and more serious an injury, cervical cord neuropraxia is the clinical manifestation of neuropraxia of the cervical spinal cord due to hyperextension, hyperflexion or axial loading. Recent data on American football suggest that approximately 0.2 per 100,000 participants at the high school level and 2 per 100,000 participants at the collegiate level are diagnosed with cervical cord neuropraxia. Characterized by temporary pain, paraesthesias and/or motor weakness in more than one extremity, there is a rapid and complete resolution of symptoms and a normal physical examination within 10 minutes to 48 hours after the initial injury. Stenosis of the spinal canal, whether congenital or acquired, is thought to predispose the athlete to cervical cord neuropraxia. Although quite rare, catastrophic neurological injury is a devastating entity referring to permanent neurological injury or death. The mechanism is most often a forced hyperflexion injury, as occurs when 'spear tackling'. The mean incidence of catastrophic neurological injury over the past 30 years has been approximately 0.5 per 100,000 participants at high school level and 1.5 per 100,000 at the collegiate level. This incidence has decreased significantly when compared with the incidence in the early 1970s. This decrease in the incidence of catastrophic injury is felt to be the result of changes in the rules in the mid-1970s that prohibited the use of the head as the initial contact point when blocking and tackling. Evaluation of patients with suspected cervical spine injury includes a complete neurological examination while on the field or the sidelines. Immobilization on a hard board may also be necessary. The decision to obtain radiographs can be made on the basis of the history and physical examination. Treatment depends on severity of diagnosed injury and can range from an individualized cervical spine rehabilitation programme for a 'stinger' to cervical spine decompression and fusion for more serious bony or ligamentous injury. Still under constant debate is the decision to return to play for the athlete.

Unilateral cervical nerve injuries: Brachial plexopathies

Brachial plexus injuries are frequently encountered in sports. Classically, the symptoms include transient burning, pain, and occasionally weakness of an isolated upper extremity resulting from a peripheral nerve injury of varying degrees. Persistent symptoms or recurrent injuries may necessitate imaging such as electromyography. Medical personnel should be familiar with brachial plexus anatomy and the common nerve injury mechanisms of compression or traction. On-field assessment includes evaluation for potentially more serious neurologic injuries and possible return to play when symptoms have resolved and the athlete has good range of motion and strength. Evidence-based guidelines are largely lacking, resulting in challenging evaluation and return-to-play decisions. Management focuses on improving neck range of motion and strength in addition to assessing for proper sport-specific technique. Additionally, enhancing protective equipment may prevent brachial plexus injuries. Currently, global screening via imaging of athletes is not recommended.

Insidious onset of shoulder girdle weakness

STUDY DESIGN

Resident's case problem.

BACKGROUND

An 18-year-old man presented to physical therapy 3 days after insidious onset of painless left shoulder girdle weakness.

DIAGNOSIS

Decreased light touch sensation was noted on the lateral left shoulder. In addition, weakness was present with shoulder abduction, flexion, external rotation, and internal rotation. Results of magnetic resonance imaging and radiography of the cervical spine, brachial plexus, and left shoulder were normal, Electromyography and nerve conduction velocity study findings were consistent with axillary nerve palsy. The results of the physical examination and diagnostic studies were most consistent with axillary nerve mononeuropathy, probably caused by traction or pressure due to wearing a pack while hiking or firing a weapon.

DISCUSSION

With sling protection, limitation of physical activity, and gradual return to progressive resistance exercises, the patient had full return of strength and function 2 1/2 months after onset of symptoms. The differential diagnosis for shoulder girdle weakness should be well understood by physical therapists. This knowledge will help the therapist promptly identify the cause of shoulder girdle weakness and initiate appropriate treatment. If the condition requires further evaluation or treatment by another healthcare provider, prompt identification of pathology will allow appropriate timely referral.

Brachial plexus lesions after backpack carriage in young adults

Carrying a heavy backpack exerts compression on shoulders, with the potential to cause brachial plexopathy. We evaluated the incidence and predisposing factors of compression plexopathy of the shoulder region in 152,095 military conscripts, hypothesizing that a low body mass index and poor physical fitness predispose to the plexus lesion. Reports of conscripts with neural lesions of the upper arm associated with load carriage were reviewed retrospectively for details associated with the condition onset, symptoms, signs, nerve conduction studies, and electromyographic examinations. Height, weight, and physical fitness scores were obtained from their military training data. The incidence of neural compression after shoulder load carriage in Finnish soldiers was 53.7 (95% confidence interval, 39.5-67.8) per 100,000 conscripts per year. The long thoracic nerve was affected in 19, the axillary nerve in 13, the suprascapular nerve in seven, and the musculocutaneous nerve in six patients. Four patients (7%) had hereditary neuropathy with susceptibility to pressure palsies (HNPP). Symptoms were induced by lighter loads in patients with HNPP. Vulnerability to brachial plexopathy was not predictable from body structure or physical fitness level. To prevent these lesions, awareness of the condition and its symptoms should be increased and backpack designs should be improved.

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.

Spinal injuries in contact sports

Contact and collision sports such as American football expose the athlete to a wide array of potential injuries. Knee injuries garner much of the attention, but spinal injuries are potentially catastrophic and all levels of medical coverage of football must be knowledgeable and prepared to attend to an athlete with a neck injury. Of the other possible spinal conditions, some resolve on their own, others might require conservative therapy, and still others might require surgical intervention. The spectrum of potential injury is wide, yet the medical team must practice and prepare to treat the possible catastrophic neck injury.

Cervical stenosis in a professional rugby league football player: a case report

Background

This paper describes a case of C7 radiculopathy in a professional rugby league player after repeated cervical spine trauma. The report outlines the management of the patient following an acute cervical hyperflexion injury with chiropractic manipulation and soft tissue therapies. It also presents a change in approach to include distractive techniques on presentation of a neurological deficit following re-injury. The clinical outcomes, while good, were very dependent upon the athlete restricting himself from further trauma during games, which is a challenge for a professional athlete.

Case presentation

A 30-year old male front row Australian rugby league player presented complaining of neck pain after a hyperflexion and compressive injury during a game. Repeated trauma over a four month period resulted in radicular pain. Radiographs revealed decreased disc height at the C5-C6 and C6-C7 levels and mild calcification within the anterior longitudinal ligament at the C6-C7 level. MRI revealed a right postero-lateral disc protrusion at the C6-C7 level causing a C7 nerve root compression.

Conclusion

Recommendations from the available literature at the present time suggest that conservative management of cervical discogenic pain and disc protrusion, including chiropractic manipulation and ancillary therapies, can be successful in the absence of progressive neurological deficit. The current case highlights the initial successful management of a football athlete, and the later unsuccessful management. This case highlights the issues involvement in the management of a collision sport athlete with a serious neck injury.

Management of Common Neurologic Conditions in Sports

Neurological conditions are common in athletes. Trauma can cause direct central (eg, concussion or hemorrhage) or peripheral (eg, stinger) injury. Also, as neurological conditions in athletes become better understood, more people who have pre-existing conditions are becoming involved in organized sports. This article reviews assessment and initial management of head injury, stingers, seizures, and headaches. Return-to-play criteria are also discussed.

Traction neuropathy of the supraclavicular nerve attributable to an osseous tunnel of the clavicle

We treated two patients who had entrapment neuropathy of the supraclavicular nerve attributable to an osseous tunnel of the clavicle. Decompression of the entrapped nerve relieved symptoms in both patients.

Distribution and extent of involvement in brachial plexopathies caused by gunshot wounds, motor vehicle crashes, and other etiologies: A 10-year electromyography study11No commercial party having a direct financial interest in the results of the research supporting this article has or will confer a benefit upon the authors(s) or upon any organization with which the author(s) is/are associated

OBJECTIVE

To examine the differences in the extent and distribution of brachial plexopathy involvement caused by gunshot wounds (GSW), motor vehicle crashes (MVCs), and other etiologies, based on electrophysiologic data.

DESIGN

Retrospective review of electrophysiologic data from 1993 to 2002.

SETTING

A large urban county hospital.

PARTICIPANTS

Sequential patients (N=109) with the diagnosis of brachial plexopathy established by electromyography testing. This included 35 patients with GSW, 25 involved in an MVC, and 49 with other etiologies.

INTERVENTIONS

Not applicable. Main Outcome Measures The brachial plexus was divided into 9 regions: upper, middle, and lower root; upper, middle, and lower trunks; and lateral, posterior, and medial cords. Regions involved by needle study on electromyography were denoted as positive or negative. The total number of regions involved was also recorded.

RESULTS

Injury was most common in the trunks (52%), cords (36%), and roots (12%) (Pearson chi(2), P<.000). Specifically, the "other" category had the greatest number of injuries to the trunks (54%) (Pearson chi(2), P<.000), whereas the trunks (46%) and cords (45%) were more evenly affected in GSW cases (Pearson chi(2), P=.585). In the MVC group, there was a trend toward more trunks (56%) being affected (Pearson chi(2), P=.076).

CONCLUSIONS

Differences were noted in the distribution of injury when examining subtypes of traumatic brachial plexopathies.

Nerve injury about the shoulder in athletes, part 2: long thoracic nerve, spinal accessory nerve, burners/stingers, thoracic outlet syndrome

Nerve injuries about the shoulder in athletes are being recognized with increasing frequency. Prompt and correct diagnosis of these injuries is important to treat the patient and to understand the potential complications and natural history, so as to counsel our athletes appropriately. This 2-part article is a review and an overview of the current state of knowledge regarding some of the more common nerve injuries seen about the shoulder in athletes, including long thoracic nerve, spinal accessory nerve, burners and stingers, and thoracic outlet syndrome. Each of these clinical entities will be discussed independently, reviewing the anatomy, mechanism of injury, patient presentation (history and examination), the role of additional diagnostic studies, differential diagnosis, and management.

Occupational and Sport Related Traumatic Neuropathy

BACKGROUND

Sport and occupation related traumatic nerve injury is a common problem in the United States. While the physical requirements of each pursuit place participants at risk for injury to certain peripheral nervous system structures, the vast numbers of professional and recreational pursuits limits the ability to become familiar with nerve injuries specific to each. A more pragmatic approach is to apply knowledge of mechanisms of injury, physiology of nerve injury, regional anatomy, and at-risk peripheral nervous system structures to the routine neurologic history and physical assessment to arrive at a localizing and etiologic diagnosis.

REVIEW SUMMARY

The authors discuss potential mechanisms of nerve injury, the role of electrodiagnostic testing, regional peripheral nervous system anatomic considerations and lesion localization.

CONCLUSIONS

Despite the wide variety of professionally and recreationally induced peripheral nerve injuries, application of anatomic, physiologic and mechanistic considerations allow the neurologist to make an etiologic and localizing diagnosis.

Etiology, treatment, and prevention of athletic "stingers"

Stingers or burners are common in athletes, especially football players. They represent a traction, compression, or direct blow to the upper roots of the brachial plexus. They are usually transient and resolve quickly. Cervical canal stenosis with concurrent degenerative disc disease may predispose an athlete to this injury. Return-to-play criteria are largely based on the number of previous episodes and the duration of symptoms. These criteria also require appropriate consideration of any underlying pathological conditions. Appropriate counseling, including modification of tackling and addition of protective gear, in conjunction with complete rehabilitation, may be effective in preventing this condition or decreasing the rate of recurrence. The athlete, family, and coaches need to understand that recurrence remains unpredictable.

Training and equipment to prevent athletic head and neck injuries

Due to the potential for catastrophic neurotraumas and cervical spine injuries in sport, the sports health care professional must take proper measures to prevent such injuries. Strength training of the cervical spine, teaching of proper sporting techniques, and use of protective sports equipment are three primary means of attempting to prevent neurotraumas and cervical spine injuries in sports. There are other avenues to assist in preventing these injuries, such as flexibility programs. The sports health care professional, therefore, must be knowledgeable of the needs of each individual athlete when developing prevention plans.

Prevalence of peripheral neurologic injuries in rotator cuff tears with atrophy

The purpose of this study is to define the prevalence of peripheral nerve injury associated with full-thickness tears of the rotator cuff presenting with shoulder muscle atrophy. Twenty-five patients with the diagnosis of full-thickness rotator cuff tear were included. Electrodiagnostic testing, including nerve conduction studies and needle examination, was performed on all patients. There were 7 abnormal electromyographic examinations. The most common diagnosis was upper trunk brachial plexopathy severely affecting the axillary nerve (4/7), followed by suprascapular neuropathy (2/7) and cervical radiculopathy (1/7). The prevalence of associated peripheral neuropathy was found to be 28%. Greater degrees of atrophy were significantly associated with the presence of neuropathy in these patients. Careful neurologic screening in all patients and electromyographic examination in clinically suspicious groups are recommended in patients with full-thickness cuff tears before surgical repair.

Stingers, cervical cord neurapraxia, and stenosis

The risk of sustaining a stinger, CCN, or a more serious catastrophic injury to the cervical spine increases with increasing stenosis. The RR of a player sustaining a second stinger or CCN increases exponentially when compared with the risk of a player sustaining an initial stinger or CCN. Intravenous steroids have no role in the management of stingers or CCN. Players who remain symptomatic after a stinger, players with persistently abnormal diagnostic studies after a stinger, and any player who experiences a CCN should be excluded from further participation in contact sports.

Return to play criteria for the athlete with cervical spine injuries resulting in stinger and transient quadriplegia/paresis

BACKGROUND CONTEXT

Fortunately, catastrophic cervical spinal cord injuries are relatively uncommon during athletic participation. Stinger and transient quadriplegia/paresis are more frequent injuries that have a wide spectrum of clinical severity and disabilities. Although the diagnosis of these injuries may not be clinically difficult, the treatment and decision about when or if the athlete may return to play after such an injury is often unclear.

PURPOSE

This article reviews the current literature to help determine reasonable guidelines for return-to-play criteria after cervical spine injuries in the athlete.

METHODS

The contemporary English literature and experience-based guidelines for return to play after cervical spine injuries in the athlete were reviewed.

RESULTS

Despite the frequency of cervical-related injuries among athletes participating in contact and collision sports, no consensus exists within the medical field as to a standard guideline approach for return to preinjury activity level.

CONCLUSION

The issue of return to play for an athlete after a cervical spine injury is controversial. Tremendous extrinsic pressures may be exerted on the physician from noninvolved and involved parties. The decision to return an athlete to a particular sport should be based on the mechanism of injury, objective anatomical injury (as demonstrated by clinical examination and radiographic evaluation) and an athlete's recovery response.