1. Fractures and Dislocations�about the Shoulder in the Pediatric Patient Joshua Klatt, MD
Original Author: Michael Wattenbarger, MD; March 2004
1st Revision: Steven Frick, MD; August 2006
2nd Revision: Joshua Klatt, MD; December 2009
2. Shoulder Trauma Shoulder trauma is relatively uncommon
Usually easy to diagnose and treat
Rarely require reduction or open treatment
Great remodeling potential
Motion of shoulder joint compensates well
Must differentiate the serious injury from mild!
3. Shoulder Region Fractures- Indications for Open Reduction Open fractures
Displaced intraarticular fractures
Multiple trauma to facilitate rehabilitation
Severe displacement with suspected soft tissue interposition
4. Developmental Anatomy- Ossification Centers and Physes Scapular ossification centers
Acromion
Coracoid
Glenoid
Medial border
Proximal humeral physis
Tent shaped
80% of longitudinal growth
Medial clavicular epiphysis
Last to ossify 18-20 yrs
Last to fuse 23-25 yrs
5. Medial Clavicular Injuries Clavicle 1st bone to ossify (intrauterine week 5), but medial clavicular epiphysis last to appear and close
18 to 20 and 23-25 yrs, respectively
Most injuries are Salter-Harris type I or II, but true dislocations may occur
Important to differentiate, as treatment differs
6. Medial Clavicular Injuries Clavicle shaft usually displaces anteriorly
But may displace posteriorly
If no evidence of medial epiphyseal # but pain and swelling, must rule out dislocation
Serendipity view or CT, if suspect
Image both sides
7. Medial Clavicular Injuries Fractures usually heal and remodel
Attempt reduction if:
Injury < 10 days old
Cardiopulmonary symptoms
Posterior dislocation warrants prompt reduction due to associated complications
Failure to heal and remodel
Brachial plexus compression
Pneumothorax
Respiratory distress
Vascular compromise
8. Medial Clavicular Injuries
9. Medial Clavicular Injuries Treatment
Closed reduction
Patient supine with general anesthesia
Bump between shoulders
Traction to abducted arm
Towel clip
Open reduction
Have access to CT surgeon
Same positioning
Intra-articular disk often stays with sternum
Don’t excise epiphysis
Use suture fixation, NOT wires
10. Diaphyseal Clavicle Fxs Most common fx of shoulder in children
10-15% of all fractures
50% are in children <10 yrs
Almost always heal, usually clinically insignificant malunion
Possible role for operative management if significantly shortened or displaced
Excellent remodeling within 1 year
Complications very uncommon
11. Diaphyseal Clavicle Fx Patterns Most in middle 1/3 (90%)
5% distal
<5% medial
Beware--nutrient foramen may look like a fracture
12. Clavicle Fractures
13. Typical Healing
14. Adolescent Clavicle Fractures ORIF may be indicated if widely displaced or shortened
Adult literature supports ORIF for completely displaced fractures
15. Intraoperative C-arm views
16. High energy displaced clavicle fractures in adolescents Good results reported with ORIF
also report good results with ORIF of nonunion/malunion for those failing nonoperative care
Vanderhave POSNA 2009
17. Clavicle Birth Fxs Large baby
Pseudoparalysis
Simple immobilization
If no plexus palsy active movement should return early
18. Congenital Pseudarthrosis �of the Clavicle Usually right side
If left, suspect dextrocardia
Often asymptomatic
If symptomatic in older child
Excise, tricortical graft, fixation
19. Clavicular Nonunion
20. Distal Clavicle Fx / “AC” Injury AC separation very uncommon in children < 16yrs
Lateral clavicle remains with periosteal sleeve distally
Often intact inferior periosteum
Usually remodels very well
Close to physis
Periosteal sleeve fills in
Nonoperative tx
Sling x 3 wks
21. Distal Clavicle Fractures- Classification Similar to adults
Based on amount and direction of displacement
22. Distal Clavicle Injuries – �Periosteal Sleeve
23. Periosteal Sleeve Fills In
24. Type IV AC Dislocation 11 yo female
Ped vs car
25. Initial XR
26. from front ------------from behind
27. Suture Fixation around Coracoid
28. Final X-ray- Full Motion
29. Scapula Fractures May be a sign of significant trauma
Think of NAT in small children
Usually nonoperative treatment, unless intra-articular
Growth centers may be confused with fracture
8-10 ossification centers
Axillary view often helpful
30. Scapula Fractures - Classification Multiple systems
Mostly descriptive and anatomically based
Can have fracture through common growth center of coracoid and glenoid (III)
31. Scapula Fractures - Treatment Similar to treatment in adults
Isolated body fxs do not affect integrity of suspensory complex
Mildly displaced neck and coracoid fxs treated conservatively
unless associated with clavicle fx
32. Scapula Fractures - Treatment Glenoid rim fxs are treated according to amount of shoulder instability
Glenoid fossa fxs
ORIF if more than 5mm displacement or instability
Posterior approach usually gives best exposure
33. Glenohumeral Dislocations Rare in young children
< 2% of all dislocations are in children < 10 yrs
20% are in children 10-20 yrs
Most are anterior, as in adults
Frequently associated Hill-Sachs lesion
High rate of recurrent instability in childhood or adolescence (70-100%)
34. Traumatic Shoulder Dislocation Gentle reduction
Pre-post neuro exam
Immobilization for approx 3 weeks
Shoulder rehabilitation
Surgical stabilization /reconstruction reserved for recurrent instability
Wait until skeletally mature, if possible
35. Glenoid Dysplasia May predispose to instability
May be primary or secondary (after brachial plexus palsy)
36. Atraumatic Instability Often multiple joint ligamentous laxity
Multidirectional instability usually present
May be voluntary (discourage)
Treat with rotator cuff strengthening
37. Proximal Humerus Fxs Birth injuries
0-5 yo Salter I
5-11 yo metaphyseal
11 to maturity –
Salter II
Others rare (III, IV)
38. Birth Fractures of the�Proximal Humerus Often Salter I type
Great remodeling potential
Simple immobilization with ACE bandage or wrap
39. Neer – Horowitz Classification Proximal Humeral Physeal Fractures Grade I- < 5 mm
Grade II - < 1/3 shaft width
Grade III - <= 2/3 shaft width
Grade IV - > 2/3 shaft width
40. Metaphyseal Fxs
41. Remodeling over 6 Months
42. Treatment Principles-�Proximal Humerus Closed treatment for vast majority
If markedly displaced, attempt closed reduction and immobilize
Reduction is unlikely to hold without fixation
Reserve closed vs. open reduction and pinning for fractures with significant displacement
(> Neer II) in older adolescents, recurrent displacement
Open reduction if soft tissue prevents reduction
Deltoid, capsule, long head of biceps
43. Proximal Humerus – �Acceptable Alignment Great remodeling potential
80% of humeral length contributed by proximal physis
Shoulder ROM is compensatory
Age dependent?
A few studies state that even older adolescents have acceptable functional outcomes after nonoperative treatment of proximal humerus fxs
Closed reduction not usually successful, nearly impossible to maintain reduced position
44. Treatment Algorithm
45. Shoulder Immobilization- Coaptation Splint
46. Early Healing Noted 3 Weeks �after Closed Reduction in Adolescent
47. Pinning Proximal Humerus Usually don’t need to
Most recent studies quote high complication rates (pin migration, infection)
Even in older adolescents some remodeling occurs
Few functional deficits
If used, leave pins long and bend outside skin, consider threaded tip pins
48. Percutaneous Pinning-�this technique may lead to pin migration
49. Pinning
50. Percutaneous Screw Fixation
51. Elastic Stable �Intramedullary Nails More recently proposed form of fixation
Avoid morbidity of percutaneous pins
Soft tissue irritation
Migration
Requires repeat anesthetic for removal
52. ESIN
53. Complications of Proximal Humerus Fractures Malunion with loss of shoulder ROM – rarely functionally significant
Shortening – up to 3 -4 cm seemingly well tolerated
Neurologic and vascular compromise less common than in adults
54. Humeral Shaft Fractures in Children Neonates – birth trauma
Neonates to age 3 – consider possible non-accidental trauma
Age 3-12 – often pathologic fracture through benign bone tumor or cyst
Older than age 12 – treatment like adults
55. Birth Fractures Simple immobilization with ACE bandage or wrap
May have pseudoparalysis
Little attention to realignment or reduction needed
56. Pathologic Humeral Fracture through UBC
57. Humeral Shaft Fractures- Treatment Usually closed methods
Sling and swathe
Coaptation splint
Fracture bracing
Hanging arm cast
58. Segmental Humeral Fractures- “Hanging Arm” Cast Treatment
59. Indications for �surgical management Polytrauma
Allow earlier ambulation
Neurovascular compromise
Note: An open midshaft humerus fracture is necessarily not an indication for fixation!
60. Humeral Shaft Outcomes Malunion common, but usually little functional loss
Remodels well
Initial fx shortening may be compensated for by later overgrowth
Nonunion uncommon
Radial nerve palsy less common, if occurs usually neuropraxia
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