Elbow dislocation

Last revised by David Carroll on 04 Sep 2022

Elbow dislocation is the second most common large joint dislocation in adults and the most common in children. 

Elbow dislocations are common and account for 10-25% of all elbow injuries in the adult population 1. They are the most common dislocation in children 4.

If an elbow dislocation is associated with a fracture (fracture-dislocation), it is called "complex." An isolated dislocation without fracture is "simple."

The most common associated fracture in adults is a radial head fracture, although coronoid process fracture is also common. When all of these occur together in a severe posterior dislocation, it is known as the terrible triad of the elbow 1-3. Other elbow fracture-dislocation patterns include the trans-olecranon fracture-dislocation and anteromedial coronoid fractures with associated varus posteromedial instability 6

The most common associated fracture in children is a medial epicondyle fracture 4

Patients typically present complaining of a painful, swollen joint after a fall on an outstretched hand; also commonly occurs in the context of motor vehicle accidents, violence, and sporting events. In posterior dislocations, the affected elbow is commonly held in mid-flexion, whereas patients with anterior dislocations tend to adopt a position of forearm supination with extension at the elbow. Inspection may reveal a prominent olecranon posteriorly, and the ipsilateral forearm may appear "shortened" compared to the contralateral extremity. The range of motion will be decreased 7.

Neurovascular structures of note which may be at risk of injury as a complication of elbow dislocations (and potentially during closed reduction attempts) include:

  • ulnar nerve
    • most common neuropraxia associated with posterior dislocation 
  • median nerve
    • anterior interosseous branch typically involved
    • may be entrapped during closed reduction of a posterior dislocation 8
  • radial nerve
  • brachial artery
    • associated with anterior dislocations

Most elbow dislocations are closed and are most frequently posterior (sometimes posterolateral or posteromedial) although anterior, medial, lateral, and divergent dislocations are also infrequently encountered).

The latter (divergent) refers to concomitant ulnohumeral, radiohumeral, and proximal radioulnar joint dislocations resulting in the displacement of the radius and the ulna in opposite directions 10. Posterior dislocation with convergent dislocation (or translocation) of the proximal radiohumeral joint and resultant reversal of their distal humeral articulation has also been described 9.

Posterior dislocations typically occur following a fall onto an extended arm, either with hyperextension or a posterolateral rotatory mechanism 1

In most cases, plain films suffice for assessment of elbow dislocations, although CT is increasingly used to pre-operatively assess intra-articular fractures. 

The dislocation is usually obvious, especially if adequate AP and lateral views are obtained, however, the challenge is in identifying associated fractures. 

Although rarely required in practice, a line drawn along the anterior margin of the humerus (anterior humeral line) and one along the long axis of the radius should intersect near the center of the capitellum 3

In addition to reporting the presence of a dislocation, a number of features should be sought and commented upon. 

When elbow dislocation is simple (i.e. no associated fracture) then closed reduction and a brief period (e.g. <2 weeks) of immobilization at 90 degrees of flexion usually suffices 1,3

Complex fracture-dislocations of the elbow require operative management, consisting of reduction of the dislocation, management of the fracture, and repair of surrounding damaged soft tissues (ORIF). They are far more likely to have a poor outcome, including secondary osteoarthritis, limited range of motion, instability (~40%), and recurrent dislocation as well as pain 1,5

Occasionally injury to the brachial artery may be seen (this is more common in open fracture-dislocations) 2.

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Cases and figures

  • Case 1: posterior
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  • Case 2: posterior
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  • Case 3: radial neck fracture
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  • Case 4: coronoid process fracture
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  • Case 5: terrible triad of the elbow
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  • Case 6: medial
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  • Case 7: medial epicondylar fracture
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  • Case 8: with avulsion fracture of the medial epicondyle
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  • Case 9: soft tissue injuries on MRI
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  • Case 10: Fracture-dislocation
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  • Case 11
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  • Case 12
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  • Case 13
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