ACROMIOCLAVICULAR DISLOCATION
ACROMIOCLAVICULAR DISLOCATION
Facts
- More common in males
- Occurs due to downward force applied to superior shoulder with upper extremity adducted
- Joint is covered by fibrocartilage and contains an intraarticular disc
- Joint inclination can be vertical to 50° medial
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AC ligaments reinforce thin joint capsule
- Fibers of the deltoid and trapezius (deltotrapezial fascia) blend with ligaments
- Confers AP stability to joint
- Vertical stability is provided by coracoclavicular (CC) ligaments: trapezoid (lateral), conoid (medial)
- Patients typically present with pain and swelling
- Abrasions over the distal clavicle are common
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Examine the seated patient with arm in dependent position
- Assess NV status and identify associated injuries
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Asymmetrical clavicular prominence may be apparent
- This must be differentiated from a clavicle fracture
- Identify step offs and assess skin condition
- Point tenderness at the AC joint is common
- Pain is increased with attemped abduction of the arm
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Cross-body adduction test: most sensitive
- From a position of 90° abduction and elbow extension, adduct arm across chest
- Reproduction of pain is suggestive of AC joint pathology
Imaging
Radiographs
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AP, scapular Y (45° from coronal plane) and axillary (shoulder abducted 70° and beam shot through the axilla) views of the shoulder should be obtained
- Axillary view can visualize anterioposterior displacement
- Comparison with the contralateral shoulder is helpful
Normal AP shoulder
Normal scapular Y view
Normal axillary shoulder
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Zanca view: AP angled 20° cephalad
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Removes AC joint overlap with scapular spine
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Stress views: can be performed when suspicion is high but radiographs are negative
- AP view of both shoulders with 10 lb weights strapped to both wrists
- Differential CC widening suggests complete CC ligament disruption
Classification
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Rockwood
:
Type I: sprain- Tenderness but radiographically normal
Type II: AC ligaments disrupted, CC ligaments intact
- AC joint may be widened (> 6 mm)
- AP instability of joint
Type III: AC and CC ligaments disrupted
- Visible deformity, reducible with upward elbow pressure
- AP and superior-inferior instability of joint
- Widened AC and CC intervals
Type IV: posterior displacement of the distal clavicle through deltotrapezial fascia
- Prominence of clavicle over scapular spine
- Clavicle posterior to acromion on axillary radiograph
- Widened CC interval and dislocation of AC on AP radiograph
Type V: wide CC separation, distal clavicle through deltotrapezial fascia
- Visible deformity, nonreducible (buttonholed through deltotrapezial fascia)
- Wide CC displacement
Type VI: inferior displacement of distal clavicle under coracoid
Rockwood classification
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OTA: acromioclavicular (10-B)
- Anterior (theoretical)
- Posterior
- Superior
- Inferior
- Other
Treatment
- Nonoperative treatment: sling for comfort for 7-10 days followed by shoulder exercises, resume activities as tolerated
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Treatment by type:
Type I: nonoperative
Type II: nonoperative- Persistent pain that cannot be controlled by NSAIDs or cortisone may require distal clavicle resection, ligament reconstruction and capsular plication
Type III: nonoperative treatment initially
- Most regain function (but deformity will persist)
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Failed nonoperative treatment requires reconstruction of the CC ligaments
- Most common is the Weaver-Dunn procedure (resect 2 cm of distal clavicle, CA ligament transfer to clavicle ± intraosseous sutures between coracoid and clavicle)
- Allograft or autograft augmentation can also be performed
- Deltotrapezial aponeurosis and capsule should be repaired
Type IV: early surgical treatment as in Type III
Type V: early surgical treatment as in Type III
Type VI: early surgical treatment as in Type III
Complications
- Distal clavicle osteolysis: idiopathic process
- Pneumothorax: most commonly with type IV separation
