x Disorders of Elbow Ligaments JB (3).docx


Disorders of Elbow Ligaments



The elbow joint is stabilized by the ulnar (medial) collateral ligament, the lateral collateral ligament, and the annular ligament. The ligaments provide valgus and varus stability, and allow for rotation, respectively. Additional static stability is provided by the capsule. Each of these ligaments can be injured by elbow trauma or overuse. Injuries of the ulnar collateral ligament are prevalent in overhead throwing athletes due to the high stresses on the elbow as the arm accelerates. Injuries to the lateral collateral ligament are often the result of acute high energy trauma (such as an elbow dislocation). Injuries to the annular ligament are rare, but in children under the age of 5, a sharp tug on the arm may allow the annular ligament to slide over the head of the radius and get caught in the elbow joint, a condition known as “Nursemaid’s Elbow”.


Structure and Function

The ulnar collateral ligament (igure 1, 2 and 3) is composed of three bundles (the anterior, posterior, and transverse) and is the primary elbow stabilizer against valgus stress. The anterior bundle is the main stabilizer of the ulna from 30 to 120 degrees of elbow motion. The posterior bundle provides stability at higher degrees of flexion. The transverse bundle is thought to have no significant role in elbow stabilization.


Figure 1: A lateral and medial view of the elbow. Shown on the lateral side in red is the annular ligament, the lateral ulnar collateral ligament in black and the radial collateral ligament in purple. (X-rays courtesy of Dr Bruno Di Muzio, Radiopaedia.org, rID: 44153)


Figure 2 On the medial side, the anterior bundle of the ulnar collateral ligament is in green and the posterior bundle in yellow. The transverse bundle is not shown. (X-rays courtesy of Dr Bruno Di Muzio, Radiopaedia.org, rID: 44153)


Figure 3 On this AP view, theulnar ulnar collateral ligament is in green,  and the annular ligament is in red and the radial collateral ligament in purple. (X-rays courtesy of Dr Bruno Di Muzio, Radiopaedia.org, rID: 44153)


During the acceleration phase of a pitch, the elbow extends from approximately 110 degrees of flexion to 20 degrees. This generates a very high valgus force at the elbow and can produce small tears in the ligament.


The lateral collateral ligament is actually complex, including both a lateral radial collateral ligament and a lateral ulnar collateral ligament. The lateral ulnar collateral ligament is the primary stabilizer to varus stress. It originates on lateral humeral epicondyle and inserts on the ulna.


Injury to the lateral collateral ligament is most often caused by an elbow dislocation.


As its name implies, the annular ligament forms a ring that surrounds the radial head, allowing the radius to twist relative to the ulna at the proximal radioulnar joint. This allows supination and pronation of the forearm.


Patient Presentation

Injury to the ulnar collateral ligament can present as acute injury (classically, with a “pop” during a single pitch, associated with pain and difficulty throwing thereafter). It may also present as a chronic condition, manifested by an aching pain and decreased performance, including loss of velocity and control (accuracy). There may also be paresthesias reported in the ring and small fingers, due to traction on the ulnar nerve.


A focused patient history should include questions about the onset of pain, what the patient was doing when the plain pain started, sports played, and the frequency of participation.


On physical exam, palpation of the ulnar collateral ligament can help identify location of injury. Tenderness over the ulnar collateral ligament is a sensitive marker, but the specificity for ulnar collateral ligament tears is low.  


Figure 4: The examiner’s right index finger is on the patient’s ulnar collateral ligament


Medial elbow instability can be difficult to reproduce on exam, as it may be seen only with the high forces generated during throwing; the examiner’s force will not reproduce the instability.


The valgus stress test is performed by passively placing the elbow in 30 degrees of flexion, and then externally rotating the humerus while applying a valgus stress.  


Figure 5: The valgus stress test of the elbow. The examiner stabilizes the elbow with his or her upper hand, and then attempts to externally rotate the arm by applying a force to the wrist. This force is transmitted to the humerus via the ulnar collateral ligament and thus tests its integrity.


The “milking maneuver” creates a valgus stress on the elbow, by pulling on the patient’s thumb with the forearm supinated and elbow flexed at 90 degrees. A positive test is noted by reported apprehension, though instability or pain may also be noted.  


Figure 6: The “milking maneuver”.  Pulling down on the thumb when the elbow is supported, the forearm is supinated and elbow is flexed (as shown) creates a valgus force at the elbow. Needless to say, the examiner is the one to position the patient and apply the force. Here our talent model is performing the test on himself to demonstrate the maneuver without an examiner in front of the camera.



Late manifestations of lateral collateral ligament injuries include pain and mechanical symptoms. A report of symptoms specifically with resisted elbow extension, such as pushing off arm rests to get up from a chair, suggests a deficiency of the lateral collateral ligament with possible rotatory instability.


The physical exam is characterized by tenderness over the lateral collateral ligament, with varus instability seen on provocative testing.


One may elicit instability with the lateral pivot-shift test. The patient is instructed to hold the forearm in a supinated position and the examiner then applies a valgus stress to the elbow and, concurrently, passively flexes the elbow. This maneuver is difficult if the patient is awake or the examiner is inexperienced. It may be simpler to ask the patient to do a push-up maneuver with the forearm supinated, as in the pushing off a chair’s armrests to arise from sitting. Pain, a sense of instability or the mere reluctance to attempt this suggest instability.


Objective Evidence

Radiographs may detect fracture (stress or acute), degenerative change, loose bodies or growth plate abnormalities. Radiographs should include AP and lateral views of the elbow; oblique views can help evaluate the olecranon osteophytes. Medial joint-line opening can demonstrate ligament failure, but stress views are not recommended, as they may worsen the condition.


Magnetic resonance imaging can show ulnar collateral ligament tears (FIGFigure 7) or thickening of the ligament reflecting a chronic injury. Magnetic Resonance Arthrography can help differentiate between full-thickness and partial undersurface tears. MRI often shows edema in the flexor-pronator origin in addition to the torn ligament.


Figure 7: The arrow points to a distal medial collateral ligament avulsion. (from https://www.dovepress.com/article_metric.php?article_id=40434


Magnetic Resonance Imaging is less effective for lateral collateral ligament tears; this diagnosis is made by history and physical examination, and may require examination under anesthesia for confirmation.



Ulnar collateral ligament injuries can occur in individuals who routinely play sports that involve an overhead throwing motion including cricket, javelin, tennis or volleyball. It is commonly associated with professional American Baseball pitchers. More recent observational studies report a high incidence of injury in high-school-age-pitchers. A 5-year report from the NCAA Injury Surveillance Program reports overall incidence of ulnar collateral ligament injury to be 1.12 per 10,000 athletic exposures (N=20) with 85% of injury occurring during throwing.


Lateral collateral ligament injuries are rare.


Differential Diagnosis

The differential diagnosis for medial elbow pain (and generalized decline in pitching performance) includes medial epicondylitis, flexor-pronator injuries, ulnar neuropathy, apophysitis, posteromedial osteophytes, and stress fracture of the ulna.


Red Flags

Subtle complaints of ulnar collateral ligament dysfunction without any overt findings on exam may be considered a “red flag” for impending injury, especially if the symptoms are not respected and the patient (often a throwing athlete) continues to engage in provocative activities.


Treatment Options and Outcomes

Young athletes with a partial tear of the ulnar collateral ligament are advised to not throw for 6 six weeks. Thereafter, they should start a rehabilitation process that involves pitching mechanics, shoulder kinematics, and core, lower extremity, and upper extremity strengthening. Once the patient is pain free and kinetic deficits of the pitching mechanics have been addressed, the patient is gradually integrated into a throwing program.


The efficacy of platelet rich plasma injections has not been established.


Corticosteroid injections are not recommended because they may weaken the ligaments.


Surgical management of ulnar collateral ligament tears is reserved for high level throwing athletes with symptomatic instability. Direct repair of the ligament is not typically performed. Reconstruction of the ulnar collateral ligament is often performed with autograft from the ipsilateral palmaris longus (though only 85% of people have a palmaris longus muscle, and among those who do, the tendon may be too short. In those cases, reconstruction is performed with the contralateral gracilis tendon.) Return to competitive throwing occurs 9 to 12 months post operatively.


Acute care treatment of lateral collateral ligament injuries is dictated by the treatment of the elbow dislocation that is often its cause.  


Chronic lateral collateral ligament deficiency is initially treated with bracing, strengthening, and activity modification. Failing that, reconstruction with a graft may be needed.


Reconstruction of the ulnar collateral ligament appears to be highly effective. Return to an equal or higher level of play has been reported to be as high as 90%. A 2014 study of 41 professional baseball pitchers reported no significant differences in pitch velocity and common performance measurements between players who returned to play after ulnar collateral ligament reconstruction and pair-matched controls. (It is not clear to what extent the one-year hiatus and rehabilitation plays in this.)


Surgery for chronic lateral collateral ligament deficiency is likewise effective: the recurrence rate for instability is less than 10%.


Risk Factors and Prevention

Risk factors for ulnar collateral ligament injury include overuse of overhead throwing, particularly in youth pitchers. Recent trends amongst youth athletes have transformed baseball into more of a year-round sport. An epidemiology study from the American Sports Medicine Institute notes that pitch count is correlated with elbow and shoulder pain in pitchers. Youth pitchers should be limited to under 100 innings pitched per calendar year as risk of serious injury is 3.5 times greater above this limit. Limiting pitch count and not pitching year-round is probably more important that avoiding certain pitch type (fastballs vs curveballs, etc.).



Reconstruction of the ulnar collateral ligament was first performed in 1974. This surgery was performed by Dr. Frank Jobe on an American professional baseball player named Tommy John. These days, the procedure is known by many as “Tommy John Surgery”.


Key Terms

ulnar collateral ligament of the elbow, lateral collateral ligament, varus and valgus stress test of elbow, milking maneuver, ulnar collateral tommy john surgery, ulnar collateral ligament reconstruction.



Recognizing ollateral igament disorders on examination and imaging.




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Disorders of Elbow Ligaments 1. Lateral view.png (image/png)

Disorders of Elbow Ligaments 2. medial view of elbow.png (image/png)

Disorders of Elbow Ligaments 3. On this AP view the ulnar collateral ligament is in green and the annular ligament is in red and the radial collateral ligament in purple.png (image/png)

Disorders of Elbow Ligaments 4. The examiner’s right index finger is on the patient’s ulnar collateral ligament.png (image/png)

Disorders of Elbow Ligaments 5. The valgus stress test of the elbow..png (image/png)

Disorders of Elbow Ligaments 6. The milking maneuver.png (image/png)

Disorders of Elbow Ligaments 7. The arrow points to a distal medial collateral ligament avulsion.png (image/png)

Disorders of Elbow Ligaments 2. A medial view of the elbow.png (image/png)

Disorders of Elbow Ligaments 1. A lateral and medial view of the elbow.png (image/png)