Journal of Orthopaedic Surgery and Research (Aug 2020)

Wrist movements induce torque and lever force in the scaphoid: an ex vivo study

  • Jochen Erhart,
  • Ewald Unger,
  • Philip Schefzig,
  • Peter Varga,
  • Michael Hagmann,
  • Robin Ristl,
  • Stefan Hajdu,
  • Anna Gormasz,
  • Patrick Sadoghi,
  • Winfried Mayr

DOI
https://doi.org/10.1186/s13018-020-01897-y
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 10

Abstract

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Abstract Purpose We hypothesised that intercarpal K-wire fixation of adjacent carpal bones would reduce torque and lever force within a fractured scaphoid bone. Methods In eight cadaver wrists, a scaphoid osteotomy was stabilised using a locking nail, which also functioned as a sensor to measure isometric torque and lever forces between the fragments. The wrist was moved through 80% of full range of motion (ROM) to generate torque and force within the scaphoid. Testing was performed with and without loading of the wrist and K-wire stabilisation of the adjacent carpal bones. Results Average torque and lever force values were 49.6 ± 25.1 Nmm and 3.5 ± 0.9 N during extension and 41 ± 26.7 Nmm and 8.1 ± 2.8 N during flexion. Torque and lever force did not depend on scaphoid size, individual wrist ROM, or deviations of the sensor versus the anatomic axis. K-wire fixation did not produce significant changes in average torque and lever force values except with wrist radial abduction (P = 0.0485). Other than wrist extension, torque direction was not predictable. Conclusion In unstable scaphoid fractures, we suggest securing rotational stability with selected implants for functional postoperative care. Wrist ROM within 20% extension and radial abduction to 50% flexion limit torque and lever force exacerbation between scaphoid fragments.

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