Scaphoid fracture
Other namesCarpal scaphoid fracture, carpal navicular fracture[1]
An X-ray showing a fracture through the waist of the scaphoid
SpecialtyHand surgery, emergency medicine
SymptomsPain at the base of the thumb, swelling[2]
ComplicationsNonunion, avascular necrosis, arthritis[2][1]
TypesProximal, medial, distal[2]
CausesFall on an outstretched hand[2]
Diagnostic methodExamination, X-rays, MRI, bone scan[2]
Differential diagnosisDistal radius fracture, De Quervain's tenosynovitis, scapholunate dissociation, wrist sprain[2][1]
PreventionWrist guards[1]
TreatmentNot displaced: Cast[2]
Displaced: Surgery[2]
PrognosisHealing may take up to six months[1]

A scaphoid fracture is a break of the scaphoid bone in the wrist.[1] Symptoms generally includes pain at the base of the thumb which is worse with use of the hand.[2] The anatomic snuffbox is generally tender and swelling may occur.[2] Complications may include nonunion of the fracture, avascular necrosis of the proximal part of the bone, and arthritis.[2][1]

Scaphoid fractures are most commonly caused by a fall on an outstretched hand.[2] Diagnosis is generally based on a combination of clinical examination and medical imaging.[2] Some fractures may not be visible on plain X-rays.[2] In such cases the affected area may be immobilised in a splint or cast and reviewed with repeat X-rays in two weeks, or alternatively an MRI or bone scan may be performed.[2]

The fracture may be preventable by using wrist guards during certain activities.[1] In those in whom the fracture remains well aligned a cast is generally sufficient.[2] If the fracture is displaced then surgery is generally recommended.[2] Healing may take up to six months.[1]

It is the most commonly fractured carpal bone.[3] Males are affected more often than females.[2]

Signs and symptoms

Anatomical snuff box

People with scaphoid fractures generally have snuffbox tenderness.

Focal tenderness is usually present in one of three places: 1) volar prominence at the distal wrist for distal pole fractures; 2) anatomic snuff box for waist or midbody fractures; 3) distal to Lister's tubercle for proximal pole fractures.[4]

Complications

Scaphoid pseudarthrosis, before and after treatment with Herbert screw.
Vascular supply of the scaphoid comes from two different vascular pedicles. 20-30% of the blood supply (a.) comes from the volar branch of the radial artery and enters the bone at the tubercle. 70-80% comes from (b.) the dorsal branch of the radial artery and travels towards the proximal pole.  

Avascular necrosis (AVN) is one complication of scaphoid fracture. Since the scaphoid receives its arterial supply in a retrograde fashion (i.e. from distal to proximal pole), the part proximal to the fracture is usually affected.[5]

Risk of AVN depends on the location of the fracture.

  • Fractures in the proximal third have a high incidence of AVN (~30%)
  • Waist fractures in the middle third is the most frequent fracture site and has moderate risk of AVN.
  • Fractures in the distal third are rarely complicated by AVN.

Non union can also occur from undiagnosed or undertreated scaphoid fractures. Arterial flow to the scaphoid enters via the distal pole and travels to the proximal pole. This blood supply is tenuous, increasing the risk of nonunion, particularly with fractures at the wrist and proximal end.[4] If not treated correctly non-union of the scaphoid fracture can lead to wrist osteoarthritis.

Symptoms may include aching in the wrist, decreased range of motion of the wrist, and pain during activities such as lifting or gripping. If x-ray results show arthritis due to an old break, the treatment plan will first focus on treating the arthritis through anti-inflammatory medications and wearing a splint when an individual feels pain in the wrist. If these treatments do not help the symptoms of arthritis, steroid injections to the wrist may help alleviate pain. Should these treatments not work, surgery may be required.[6]

Mechanism

Scaphoid fractures occur in three locations: (A) Distal tubercle, (B) waist, and (C) proximal pole.

Fractures of scaphoid can occur either with direct axial compression or with hyperextension of the wrist, such as a fall on the palm on an outstretched hand. Using the Herbert classification system, there are three main types of scaphoid fractures. 10%-20% of fractures are at the proximal pole, 60%-80% are at the waist (middle), and the remainder occur at the distal pole.[4][7][8]

Diagnosis

Fracture of the tubercle of the scaphoid bone of the wrist

Scaphoid fractures are often diagnosed using plain radiographs and multiple views are obtained as standard.[9] However, not all fractures are apparent initially.[7] In 1/4 of cases, the clinical examination suggests a fracture, but the X-ray does not show it, even though there is indeed a fracture.[10] Therefore, people with tenderness over the scaphoid (those who exhibit pain to pressure in the anatomic snuff box ) are often splinted in a thumb spica for 7–10 days at which point a second set of X-rays is taken.[7] If a minimally displaced fracture was present initially, healing will now be apparent. Even then a fracture may not be apparent. A CT Scan can then be used to evaluate the scaphoid with greater resolution. The use of MRI, if available, is preferred over CT and can give one an immediate diagnosis.[11] Bone scintigraphy is also an effective method for diagnosis fracture which do not appear on Xray.[12]

Treatment

Treatment of scaphoid fractures is guided by the location in the bone of the fracture (proximal, waist, distal), displacement (or instability) of the fracture, and patient tolerance for cast immobilization.

For non and minimally displaced fractures (up to 2mm) of the scaphoid waist, cast immobilisation (with surgical fixation for non-united fractures at 6 to 12 weeks) is as effective as immediate surgery fixation. This was demonstrated by the SWIFFT (Scaphoid Waist Internal Fixation for Fractures Trial) study, 439 patients were randomly allocated to either cast immobilisation or surgical fixation. There was no difference in the healing, pain and function or days off work between the two treatment groups, the cast immobilisation group had less complications and this treatment was more cost effective.[14][15] The choice of short arm, short arm thumb spica or long arm cast is debated in the medical literature and no clear consensus or proof of the benefit of one type of casting or another has been shown; although it is generally accepted to use a short arm or short arm thumb spica for non displaced fractures.[7] In the SWIFFT study most used a short arm cast with the thumb left free. Non displaced or minimally displaced fracture can also be treated with percutaneous or minimal incision surgery which if performed correctly has a high union rate, low morbidity and faster return to activity than closed cast management.[16] However this was not confirmed by the SWIFFT study. [14] [15]

Fractures that are more proximal take longer to heal. It is expected the distal third will heal in 6 to 8 weeks, the middle third will take 8–12 weeks, and the proximal third will take 12–24 weeks.[7][8] The Scaphoid receives its blood supply primarily from lateral and distal branches of the radial artery. Blood flows from the top/distal end of the bone in a retrograde fashion down to the proximal pole; if this blood flow is disrupted by a fracture, the bone may not heal. Surgery is necessary at this point to mechanically mend the bone together.

Percutaneous screw fixation is recommended over an open surgical approach when it is possible to achieve acceptable bone alignment closed as minimal incisions can preserves the palmar ligament complex and local vasculature, and help avoid soft tissue complications. This surgery includes screwing the scaphoid bone back together at the most perpendicular angle possible to promote quicker and stronger healing of the bone. Internal fixation can be done dorsally with a percutaneous incision and arthroscopic assistance [17] or via a minimal open dorsal approach,[16] or via a volar approach in which case slight excavation of the edge of the trapezium bone may be necessary to reach the scaphoid as 80% of this bone is covered with articular cartilage, which makes it difficult to gain access to the scaphoid.[18]

Prognosis

A non-union (pseudarthrosis) can occur in 2 to 5% of cases. [19]

In the aftermath, 90% of non-operated individuals return to sports, with 88% reaching their previous level. Among those who underwent surgery, the rate of returning to sports is 98%, and 96% return to their previous level. The average time observed for resuming sports is 14 weeks for non-operated individuals and 7 weeks for those who had surgery.[20]

Epidemiology

Fractures of the scaphoid are common in young males.[21] They are less common in children and older adults because the distal radius is weaker contributor to the wrist and more likely to fracture in these age groups.[7] Scaphoid fractures account for 50%-80% of carpal injuries.[8]

Terminology

These are also called navicular fractures (the scaphoid also being called the carpal navicular), although this can be confused with the navicular bone in the foot.

References

  1. 1 2 3 4 5 6 7 8 9 "Scaphoid Fracture of the Wrist". AAOS. March 2016. Archived from the original on 24 September 2017. Retrieved 12 October 2017.
  2. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Phillips TG, Reibach AM, Slomiany WP (September 2004). "Diagnosis and management of scaphoid fractures". American Family Physician. 70 (5): 879–884. PMID 15368727.
  3. Tada K, Ikeda K, Okamoto S, Hachinota A, Yamamoto D, Tsuchiya H (2015). "Scaphoid Fracture--Overview and Conservative Treatment". Hand Surgery. 20 (2): 204–209. doi:10.1142/S0218810415400018. PMID 26051761.
  4. 1 2 3 deWeber K. "Scaphoid fractures". UpToDate.com. Archived from the original on 2013-10-29.
  5. Tokyay A, Gunal I (2015-01-20). "Avascular necrosis of the distal pole of the scaphoid". Case Reports in Plastic Surgery & Hand Surgery. 2 (2): 40–42. doi:10.3109/23320885.2015.1006633. PMC 4623543. PMID 27252968.
  6. Jones B (2010). "Scaphoid Fracture of the Wrist". Ortho Info. American Academy of Orthopedic Surgeons. Archived from the original on December 7, 2015. Retrieved November 30, 2015.
  7. 1 2 3 4 5 6 Sarwark JF (2010). Essentials of musculoskeletal care. Rosemont, Ill.: American Academy of Orthopaedic Surgeons. ISBN 978-0892035793. OCLC 706805938.
  8. 1 2 3 Egol KA, Koval KJ, Zuckerman JD (2015). Handbook of fractures (5th ed.). Philadelphia: Wolters Kluwer Health. ISBN 978-145119362 6. OCLC 960851324.
  9. Jones J. "Scaphoid series". Radiology Reference Article. Radiopaedia.org. Retrieved 2021-08-30.
  10. Suh N, Grewal R (January 2018). "Controversies and best practices for acute scaphoid fracture management". The Journal of Hand Surgery, European Volume. 43 (1): 4–12. doi:10.1177/1753193417735973. PMID 29027844.
  11. "BestBets: Magnetic resonance imaging of suspected scaphoid fractures". Archived from the original on 2010-06-16.
  12. Yin ZG, Zhang JB, Kan SL, Wang XG (March 2010). "Diagnosing suspected scaphoid fractures: a systematic review and meta-analysis". Clinical Orthopaedics and Related Research. 468 (3): 723–734. doi:10.1007/s11999-009-1081-6. PMC 2816764. PMID 19756904.
  13. Jarraya M, Hayashi D, Roemer FW, Crema MD, Diaz L, Conlin J, et al. (2013). "Radiographically occult and subtle fractures: a pictorial review". Radiology Research and Practice. 2013: 370169. doi:10.1155/2013/370169. PMC 3613077. PMID 23577253. CC-BY 3.0
  14. 1 2 Dias JJ, Brealey SD, Fairhurst C, Amirfeyz R, Bhowal B, Blewitt N, et al. (August 2020). "Surgery versus cast immobilisation for adults with a bicortical fracture of the scaphoid waist (SWIFFT): a pragmatic, multicentre, open-label, randomised superiority trial" (PDF). Lancet. 396 (10248): 390–401. doi:10.1016/S0140-6736(20)30931-4. PMID 32771106. S2CID 221014238."
  15. 1 2 Dias J, Brealey S, Cook L, Fairhurst C, Hinde S, Leighton P, et al. (October 2020). "Surgical fixation compared with cast immobilisation for adults with a bicortical fracture of the scaphoid waist: the SWIFFT RCT". Health Technology Assessment. 24 (52): 1–234. doi:10.3310/hta24520. PMC 7681317. PMID 33109331.
  16. 1 2 Gutow AP (August 2007). "Percutaneous fixation of scaphoid fractures". The Journal of the American Academy of Orthopaedic Surgeons. 15 (8): 474–485. doi:10.5435/00124635-200708000-00004. PMID 17664367. S2CID 33543861.
  17. Slade JF 3rd, Gutow AP, Geissler WB. Percutaneous internal fixation of scaphoid fractures via an arthroscopically assisted dorsal approach. J Bone Joint Surg Am. 2002;84-A Suppl 2:21-36. doi:10.2106/00004623-200200002-00003
  18. Kastelec M. "Percutaneous Screw Fixation". AO Foundation. Archived from the original on December 8, 2015. Retrieved November 30, 2015.
  19. Suh N, Grewal R (January 2018). "Controversies and best practices for acute scaphoid fracture management". The Journal of Hand Surgery, European Volume. 43 (1): 4–12. doi:10.1177/1753193417735973. PMID 29027844.
  20. Goffin JS, Liao Q, Robertson GA (February 2019). "Return to sport following scaphoid fractures: A systematic review and meta-analysis". World Journal of Orthopedics. 10 (2): 101–114. doi:10.5312/wjo.v10.i2.101. PMC 6379737. PMID 30788227.
  21. Beasley's Surgery of the Hand. Thieme New York. 2003. p. 188. ISBN 9781282950023.
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