Elbow joint instability results from the disruption of one or more stabilizing anatomical structures. The two most common forms of instability are posterolateral rotatory instability (PLRI) and medial elbow instability (MEI), particularly in athletes. This review aims to explore the anatomical foundations, diagnostic methods, and therapeutic approaches for PLRI and MEI in athletes.

A comprehensive literature review was performed to investigate the study objective.

Regarding the anatomical background, the primary stabilizing structures of the elbow joint include the humeroulnar joint (trochlea, olecranon, and coronoid process), the medial collateral ligament (MCL), and the lateral ulnar collateral ligament (LUCL). PLRI is primarily caused by LUCL insufficiency, while MEI results from MCL dysfunction. A thorough clinical evaluation, combined with advanced imaging-magnetic resonance imaging (MRI) or MR arthrography is essential for an accurate diagnosis. For high-level athletes, surgical intervention is often required, with the timing and type of surgery tailored to the athlete's specific needs, expectations, and the chronicity of the injury.

PLRI and MEI present diagnostic and therapeutic challenges, especially in athletes. Advanced imaging and clinical evaluation are crucial for the diagnosis. Surgical intervention, particularly arthroscopy, is often required for optimal outcomes.

The practice of sports may lead to neurological injuries. While relatively uncommon (overall incidence of approximately 2.5%), and mostly benign and transient, some conditions may be life-threatening and permanent. Thus, both clinical neurologists and sports physicians should be aware of their existence and relevance. We aimed to review all sports-related neurological injuries and illnesses reported in the literature.

Following SANRA guidelines, we performed a narrative review and searched PubMed and Scopus databases. Relevant sports were selected based on their recognition as an Olympic sport by the International Olympic Committee. Chronic traumatic encephalopathy (CTE) and other neurodegenerative disorders were not included.

A total of 292 studies were included concerning 33 different sports. The most reported neurological injury was damage to the peripheral nervous system. Traumatic injuries have also been extensively reported, including cerebral haemorrhage and arterial dissections. Non-traumatic life-threatening events are infrequent but may also occur, e.g. posterior reversible encephalopathy syndrome, cerebral venous thrombosis, and arterial dissections. Some conditions were predominantly reported in specific sports, e.g. yips in baseball and golf, raising the possibility of a common pathophysiology. Spinal cord infarction due to fibrocartilaginous embolism was reported in several sports associated with minor trauma.

Sports-related neurological injuries are increasingly receiving more social and medical attention and are an important cause of morbidity and mortality. This review may serve as a guide to physicians managing these challenging situations.

Peripheral nerve injuries in the upper extremities may be common in throwing athletes as the throwing motion places extreme stress on the dominant arm. The combination of extreme stress along with repetitive microtrauma from throwing uniquely places the throwing athlete at elevated risk of upper extremity peripheral nerve injury. However, because symptoms can be non-specific and frequent co-exist with pathology in the upper extremity, the diagnosis of peripheral nerve injury is often delayed. Diagnosis of peripheral nerve injuries may require a combination of history and physical exam, diagnostic imaging, electrodiagnostic testing, and diagnostic ultrasound guided injections. The primary management should include physical therapy focusing on throwing mechanics and kinetic chain evaluation. However, some athletes require surgical intervention if symptoms do not improve with conservative management. The purpose of this focused narrative review is to highlight upper extremity peripheral neuropathies reported in throwing athletes and to provide an overview of the appropriate clinical diagnosis and management of the throwing athlete with a peripheral nerve injury. This article is protected by copyright. All rights reserved.

Objectives: Suprascapular neuropathy is more frequent in volleyball as compared to other overhead sports. This study aims to report the actual prevalence of suprascapular neuropathy among elite volleyball players. The hypothesis is that becoming jump topspin serves the most common serving technique, suprascapular neuropathy reduced its frequency. Methods: A total of 82 professional players were enrolled in the study. The presence of symptoms and the type of serve preferably performed were investigated. The strength and trophicity of the supraspinatus and infraspinatus muscles were evaluated. Patients with positive clinical findings underwent MRI of the shoulder. Results: The jump topspin serve was found to be the most popular type of serve both in males and females. At physical examination, 9% of the males and 12% of the females presented with infraspinatus muscle hypotrophy. Each case was accompanied by external rotation weakness. None of them complained of pain or reduced performance when they played. MRI confirmed infraspinatus muscle atrophy in all subjects. Conclusion: A lower prevalence of suprascapular neuropathy was found as compared with that previously reported in the 1980s and 1990s. A reduction in the popularity of the float serve seems to be a possible explanation. Thus, the jump topspin serve could be safe for suprascapular neuropathy and associated injuries in volleyball. The findings of this study should be considered by athletes and coaches for the prevention of activity-related injuries.

Injury to the ulnar collateral ligament is the most common, significant injury affecting the medial elbow of the overhead athlete. However, there are many other significant sources of pathology that should be considered. This review seeks to present a broad range of conditions that providers should consider when evaluating the overhead athlete with medial elbow pain.

Recent biomechanical studies have deepened understanding of the anatomy and function of the anterior bundle of the ulnar collateral ligament germane to the overhead athlete. Orthobiologics hold potential for expanding the role of non-operative treatment for ulnar collateral ligament injuries. In addition to injury to the ulnar collateral ligament, providers should be prepared to diagnose and treat valgus extension overload, proximal olecranon stress fracture, ulnar nerve pathology, common flexor - pronator mass injury, and, in adolescents, medial epicondylar avulsion, when managing medial elbow pain in the overhead athlete.

Peripheral nerve injuries are unusual in sport but impact an athlete's safe return to play. Nerve injuries result from either acute trauma (most commonly in contact/collision sports) or from repetitive microtrauma and overuse. Diagnosis of overuse nerve injuries includes nerve localization and surrounding soft-tissue anatomy, and must account for possible causes of repetitive microtrauma, including biomechanics, equipment, training schedule, and recovery. Prognosis is related to the type of nerve injury. Management should not simply be rest and gradual return to sport but should address biomechanical and training predispositions to injury. Understanding the type of injury and the tissues involved will guide appropriate rehabilitation decisions. Recognizing acute care considerations and implementing appropriate strategies can help minimize secondary trauma to an area following acute injury.

The effect of repetitive throwing on the ulnar nerve is not clear. There are no published imaging studies regarding this issue in adolescent baseball players. The purpose of this cross-sectional ultrasonographic study was to use 5- to 10-MHz frequency ultrasonography to define the anterior translation and flattening of the ulnar nerve in different elbow positions. We divided 39 adolescent baseball players into two groups, 19 pitchers and 20 fielders, according to the amount of throwing. Twenty-four non-athlete junior high school students were also included as controls. We ultrasonographically examined each participant's ulnar nerve in the cubital tunnel with the elbow extended and at 45°, 90° and 120° of flexion. Anterior translation and flattening of the ulnar nerve occurred in all groups. Pitchers had larger-scale anterior translation than did controls. In pitchers, the ulnar nerve exhibited more anterior movement on the dominant side than on the non-dominant side. The anterior subluxation of the ulnar nerve occurred in players without ulnar nerve palsy and was not correlated with elbow pain. In addition to the known musculoskeletal adaptations of pitchers' elbows, ultrasonography revealed new changes in the ulnar nerve, anterior translation and subluxation, after repetitive throwing. These changes might also be physiologic adaptations of throwing elbows.

Softball is a popular sport in civilian and military populations and results in a large number of lost-workday injuries. The purpose of this study is to describe the mechanisms associated with softball injuries occurring among active duty U.S. Air Force (USAF) personnel to better identify potentially effective countermeasures.

Data derived from safety reports were obtained from the USAF Ground Safety Automated System in 2003. Softball injuries for the years 1993-2002 that resulted in at least one lost workday were included in the study. Narrative data were systematically reviewed and coded in order to categorize and summarize mechanisms associated with these injuries.

This report documents a total of 1181 softball-related mishap reports, involving 1171 active duty USAF members who sustained one lost-workday injury while playing softball. Eight independent mechanisms were identified. Three specific scenarios (sliding, being hit by a ball, and colliding with a player) accounted for 60% of reported softball injuries.

Mechanisms of injury for activities such as playing softball, necessary for prevention planning, can be identified using the detailed information found in safety reports. This information should also be used to develop better sports injury coding systems. Within the USAF and U.S. softball community, interventions to reduce injuries related to the most common mechanisms (sliding, being hit by a ball, and colliding with a player) should be developed, implemented, and evaluated.

The objective of reporting this case was to introduce a unique cause of shoulder pain in a high-level Division I NCAA collegiate baseball player. Various neurovascular causes of shoulder pain have been described in the overhead athlete, including quadrilateral space syndrome, thoracic outlet syndrome, effort thrombosis, and suprascapular nerve entrapment. All of these syndromes are uncommon and frequently are missed as a result of their rarity and the need for specialized tests to confirm the diagnosis. This pitcher presented with nonspecific posterior shoulder pain that was so severe he could not throw more than 50 feet. Eventually, intermittent axillary artery compression with the arm in abduction resulting from hypertrophy of the pectoralis minor and scalene muscles was documented by performing arteriography with the arm in 120 degrees abduction. MRI-MR angiographic evaluation revealed no anatomic abnormalities. The patient was treated successfully with a nonoperative rehabilitation program and after 6 months was able to successfully compete at the same level without pain.

Shoulder stabilization is of utmost importance in upper extremity reanimation following paralysis from devastating brachial plexus injuries. The purpose of this report is to present the authors' experience with suprascapular nerve reconstruction in 118 cases of adult brachial plexus lesions. Outcomes were analyzed in relation to various factors, including patient age, denervation time, donor nerve used, and functional restoration achieved in the supraspinatus versus the infraspinatus muscles.

The medical records of 118 adult patients operated on by a single surgeon between 1978 and 2002 who had suprascapular nerve reconstruction were reviewed; 102 patients had adequate follow-up. Direct neurotization of the suprascapular nerve was carried out in 78 patients, while in 40 patients, interposition nerve grafts were used. In 80 patients, the distal spinal accessory was used as the motor donor nerve for suprascapular nerve neurotization, while in 10 patients, other extraplexus motor donors were used. In 28 patients, intraplexus motor donors were used to reinnervate the suprascapular nerve.

Results were good or excellent in 79 percent of the patients for the supraspinatus muscle and in 55 percent for the infraspinatus. There was a statistically significant difference between direct spinal accessory to suprascapular nerve neurotization and accessory to suprascapular via a nerve graft. Early surgery and less than 6 months of denervation time yielded significantly better results than late surgery and more than 6 months of delay in the treatment.

Suprascapular nerve neurotization is a high priority in upper limb reanimation for restoration of glenohumeral joint stability, shoulder abduction, and external rotation. Concomitant neurotization of the axillary nerve yields improved outcomes in shoulder abduction function. The best results are seen when direct neurotization of the suprascapular nerve is performed within 6 months from the injury.

To compare the ulnar nerve conduction velocity (NCV) of baseball pitchers without elbow injury to baseball pitchers with elbow injury and to persons who do not play baseball.

Cross-sectional.

Hospital rehabilitation department.

Eight college baseball pitchers without elbow injury, 8 age-matched controls who did not play baseball, and 8 college baseball pitchers with a history of elbow injury with tenderness over the cubital tunnel area.

Supramaximal electric stimulation was applied superficially to the ulnar nerve at the wrist, below the elbow, and above the elbow of both the dominant and nondominant arms of all subjects. M waves were recorded from the abductor digiti minimi muscles.

The ulnar NCV was calculated separately for the across-elbow and below-elbow segments. The ulnar NCVs of both arms of the 3 groups were compared by using a 2-way (arm by group) analysis of variance, with a statistical significance level of P less than .05.

The ulnar NCVs were 64.40+/-7.34m/s, 54.97+/-8.67m/s, and 59.18+/-4.10m/s for the pitchers without injury, pitchers with injury, and the subjects who were not pitchers, respectively. The pitchers without injury were significantly faster than the other 2 groups. For pitchers without injury, the ulnar NCVs of the dominant arm were significantly faster than those of the nondominant arm (56.26+/-2.63m/s). No significant difference was found between the dominant and nondominant arms for the group of injured pitchers and for the group of subjects who were not pitchers.

The ulnar NCVs of the injured pitchers did not appear to be abnormal, but were suboptimal in comparison with the noninjured pitchers. The above-normal NCVs observed in the noninjured pitchers may be the result of an adaptation to trauma associated with ball throwing.

The unique anatomy of the elbow combined with the angular velocity and stresses placed across this hinge joint while throwing can cause a large number of pathologic changes associated with nerves. Although the ulnar nerve is the most commonly injured, neuropathies are also seen with the branches of the median and radial nerves. These neuropathies are typically responsive to rest, activity modification, ice, splinting, and anti-inflammatories. A graduated return to throwing is then needed before returning to play. When conservative measures fail, surgical decompression is warranted, but results have been less than perfect.

Infraspinatus muscle atrophy has been observed in athletes who stress their upper extremities in an overhead fashion. The majority of such case reports have been in volleyball players, with far fewer cases reported in baseball players.

Infraspinatus muscle atrophy occurs to a notable degree in professional baseball players.

Retrospective cohort study.

At the end of the 1999 baseball season, data were collected from all Major League Baseball teams in regards to players affected with infraspinatus muscle atrophy.

Twelve of the 1491 major league professional baseball players were identified as having appreciable infraspinatus muscle atrophy. There was an increased prevalence of the muscle atrophy in professional pitchers (10 of 494, 4%) compared to position players (2 of 997, 0.2%) (P <0.001). Among affected pitchers, the atrophy was identified more frequently in starting pitchers (8 of 10) compared to relief pitchers (2 of 10) (P = 0.036), pitchers who had played for more years at the major league level (8.7 +/- 4.9 versus 5.2 +/- 4.0) (P = 0.017), and pitchers who had thrown for more innings at the major league level (971.4 +/- 784.4 versus 485.0 +/- 594.6) (P <0.001).

Infraspinatus atrophy was identified in 4.4% of major league starting pitchers and occurred in those pitchers who pitched for more years and innings during their major league career.