Scaphoid fracture

Scaphoid fractures (i.e. fractures through the scaphoid bone) are common, in some instances can be difficult to diagnose, and can result in significant functional impairment.

Scaphoid fractures account for 70-80% of all carpal bone fractures 1. Although they occur essentially at any age, adolescents and young adults are most commonly affected 1. Older patients falling in a similar manner are more likely to sustain a distal radial fracture (usually a Colles fracture).

Classically there can be a pain in anatomical snuffbox which is thought to have a sensitivity of ~90% and a specificity of ~40% 4.

The usual mechanism is falling on an outstretched hand with resultant hyper-extension of the wrist or purely compressive force 7. Occasionally stress fractures are also encountered although these are less common, and only usually seen in athletes (e.g. shot-putters or gymnasts) 8.

Fractures can occur essentially anywhere along the scaphoid, but distribution is not even 9:

  • waist of the scaphoid: 70-80%
  • proximal pole: 20%
  • distal pole (or so-called scaphoid tubercle): 10%

See: Mayo classification of scaphoid fractures.

A dedicated plain radiographic series investigating the scaphoid exists, consisting of four projections of the scaphoid bone. It is positionally different from the wrist series. It should, however, be noted that the initial radiograph can miss from 5-20% of fractures in the acute setting 1.

Features include:

  • visualization of the fracture +/- displacement
  • soft tissue swelling and lateral displacement of the adjacent fat pads
    • scaphoid fat pad sign: obliteration or lateral displacement of a straight/convex lucent line on the lateral aspect of the scaphoid 11
  • associated scapholunate ligament disruption (Terry Thomas sign) which can be accentuated with a clenched fist view

If AVN develops the first sign will be slight sclerosis. This can be on account of the rest of the wrist undergoing demineralization due to immobilization, whereas the proximal portion being bereft of blood supply retains its calcium. With time the proximal part undergoes osteonecrosis, becomes increasingly sclerotic and can 'implode' and fragment with secondary osteoarthritic changes 9.

In addition to stating that a fracture is present, a number of features should be sought and commented upon:

  • fracture
    • location (distal pole, waist, proximal pole)
    • involvement of articular surfaces
    • displacement
    • humpback deformity due to angulation between proximal and distal parts
  • alignment
  • associated fractures (e.g. Colles fracture or other carpal bone fractures)
  • evidence of avascular necrosis if the fracture is subacute

Importantly if no fracture is seen it is essential to recommend repeat x-rays (including dedicated scaphoid views) in 7-10 days 1. If these repeat films are negative also, then MRI (or bone scan if MRI is unavailable) should be recommended if clinical suspicion persists 1.

CT may be used for diagnosis when plain films are normal because it is readily available and quick 12. Reported sensitivities, specificities and negative predictive values for CT have been reported CT to be 89-90%, 85-100%, and 97-98% respectively. CT may be insensitive to trabecular injury 5. CT is useful for staging scaphoid fractures if surgery is considered and when fractures of the carpus are extensive or complex. CT also is useful in assessing bone union 8.

MRI is the most sensitive modality for trabecular fractures, and this can detect completely undisplaced fractures, especially in the first 24 hours following injury 9,13. It is also useful in assessing for avascular necrosis.

Although bone scans are more sensitive than plain radiograph, they are usually reserved for patients with ongoing pain despite normal serial plain films 8, 13. Bone scans will be most sensitive 3-4 days following the injury. An occult fracture will appear as a region of increased uptake, whereas avascular necrosis will demonstrate a photopaenic region at the lower pole of the scaphoid.

Management options can broadly be divided into:

  • immobilization with cast application
  • internal fixation for displaced fragments, usually with a headless self-compressing screw 10
  • non-union can be managed with internal fixation and bone grafting 10

Non-union occurs in 5-15% of cases 14,15. Factors affecting prognosis:

  • location 9
    • distal pole: the excellent likelihood of union (~100%)
    • waist: ~10-20% chance of non-union
    • proximal pole: ~30-40% chance of non-union
  • vertically oriented fracture line
  • fragment displacement of >1 mm
  • ligamentous instability: increased scapholunate angle (i.e. >60º or radiolunate or capitolunate angle >15º

The major complication of scaphoid fractures is non-union or malunion leading to instability and secondary osteoarthritic change. Hence surgical treatment of displaced fractures or angulation.

A number of other specific complications are encountered from time to time:

The term scaphoid derives from the Greek word for boat. The bone profile is thought to look like a boat or skiff.

Fractures
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Article information

rID: 2021
Synonyms or Alternate Spellings:
  • Carpal navicular fracture
  • Scaphoid fractures
  • Carpal navicular fractures
  • Scaphoid bone fractures
  • Scaphoid bone fracture
  • Fracture of scaphoid bone
  • Scaphoid fx

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Cases and figures

  • Figure 1: scaphoid (illustration)
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  • Case 1
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  • Case 2
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  • Case 3: with early avascular necrosis
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  • Case 4: trans-scaphoid perilunate dislocation
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  • Case 5
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  • Case 6
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  • Case 7
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  • Scaphoid fracture
    Case 8
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  • Case 9
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  • Case 10: distal
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  • Case 11
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  • Case 12: distal pole
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  • Case 13
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  • Case 14: with concurrent capitate fracture
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  • Case 15: with distal radial fracture
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  • Case 16
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  • Case 17: with delayed healing in scaphoid fracture
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  • Case 18: with AVN
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  • Case 19: on ultrasound
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  •  Case 20
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  • Case 21: treated with Herbert scew
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  • Case 22: with AVN
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  • Case 23: with DISI
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  • Case 24: with non-union
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