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DOI: 10.1055/s-0043-1777406
Carpal Tunnel Syndrome as a Complication of Surgical Scaphoid Reconstruction in Nonunion and Secondary Fracture Dislocation
Abstract
The purpose of this study was to identify risk factors for postoperative carpal tunnel syndrome (CTS) in operative management for scaphoid nonunion and secondary fracture dislocation, treated surgically with takedown and bone grafting. We reviewed medical records of all our patients that underwent carpal tunnel release after scaphoid reconstruction surgery from August 2002 to December 2020. We identified a total of 7 out of 191 patients (3.7%). We investigated surgical parameters, pre- to postoperative changes, in three-dimensional measurements of the scaphoid and carpal tunnel morphometry. We found the preoperative intrascaphoid angle (ISA) and the postoperative change in ISA to correlate with an increased risk of postoperative CTS. Patients undergoing operative scaphoid reconstruction that require a high degree of geometric correction can be at risk to develop postoperative CTS, hence they should be subject to a lower threshold decision for prophylactic carpal tunnel release.
Level of Evidence Level III.
Keywords
scaphoid reconstruction - postoperative carpal tunnel syndrome - pseudarthrosis - complication carpal reconstruction - CARD analysisAuthors' Contributions
O.A., T.P., and A.S. conceived the study. S.B. and L.N. were involved in gaining ethical approval. S.B., L.R., O.A., and T.P. were further involved with patient recruitment and data analysis. S.B. and L.N. wrote the first draft of the manuscript. All authors reviewed and edited the manuscript and approved the final version of the manuscript.
Ethical Approval
Ethical approval for this study was obtained from the Cantonal Ethics Commission of Zurich (2021–02485).
Patients' Consent
General written informed consent was obtained from all patients.
* Sophie Brackertz and Octavian Andronic have contributed equally to this work and share first authorship.
Publikationsverlauf
Eingereicht: 29. August 2023
Angenommen: 09. November 2023
Artikel online veröffentlicht:
22. Dezember 2023
© 2023. Thieme. All rights reserved.
Thieme Medical Publishers, Inc.
333 Seventh Avenue, 18th Floor, New York, NY 10001, USA
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References
- 1 Itsubo T, Hayashi M, Uchiyama S, Hirachi K, Minami A, Kato H. Differential onset patterns and causes of carpal tunnel syndrome after distal radius fracture: a retrospective study of 105 wrists. J Orthop Sci 2010; 15 (04) 518-523
- 2 Bain GI, Bennett JD, MacDermid JC, Slethaug GP, Richards RS, Roth JH. Measurement of the scaphoid humpback deformity using longitudinal computed tomography: intra- and interobserver variability using various measurement techniques. J Hand Surg Am 1998; 23 (01) 76-81
- 3 Amadio PC, Berquist TH, Smith DK, Ilstrup DM, Cooney III WP, Linscheid RL. Scaphoid malunion. J Hand Surg Am 1989; 14 (04) 679-687
- 4 Schweizer A, Mauler F, Vlachopoulos L, Nagy L, Fürnstahl P. Computer-assisted 3-dimensional reconstructions of scaphoid fractures and nonunions with and without the use of patient-specific guides: early clinical outcomes and postoperative assessments of reconstruction accuracy. J Hand Surg Am 2016; 41 (01) 59-69
- 5 Merhar GL, Clark RA, Schneider HJ, Stern PJ. High-resolution computed tomography of the wrist in patients with carpal tunnel syndrome. Skeletal Radiol 1986; 15 (07) 549-552
- 6 Schmitt R, Lucas D, Buhmann S, Lanz U, Schindler G. Morphometry using computerized tomography of the wrist in idiopathic carpal tunnel syndrome. Comparison of pre- and postoperative findings [in German]. Handchir Mikrochir Plast Chir 1988; 20 (01) 41-46
- 7 Singh S, Andronic O, Kaiser P, Jud L, Nagy L, Schweizer A. Recent advances in the surgical treatment of malunions in hand and forearm using three-dimensional planning and patient-specific instruments. Hand Surg Rehabil 2020; 39 (05) 352-362
- 8 Guldbrandsen CW, Radev DI, Gvozdenovic R. Normal ranges for measurements of the scaphoid bone from sagittal computed tomography images. J Hand Surg Eur Vol 2021; 46 (06) 594-599
- 9 Mondelli M, Giannini F, Giacchi M. Carpal tunnel syndrome incidence in a general population. Arch Orthop Trauma Surg 2013; •••: 1155-1162
- 10 Tosti R, Ilyas AM. Acute carpal tunnel syndrome. Orthop Clin North Am 2012; 43 (04) 459-465
- 11 Earp BE, Mora AN, Floyd WE, Blazar PE. Predictors of acute carpal tunnel syndrome following orif of distal radius fractures: a matched case–control study. J Hand Surg Glob Online 2019; 1: 6-9
- 12 Brüske J, Niedźwiedź Z, Bednarski M, Zyluk A. Acute carpal tunnel syndrome after distal radius fractures–long term results of surgical treatment with decompression and external fixator application [in Polish]. Pol Orthop Traumatol 2002; 67 (01) 47-53
- 13 Protopsaltis TS, Ruch DS. Volar approach to distal radius fractures. J Hand Surg Am 2008; 33 (06) 958-965
- 14 Figus A, Iwuagwu FC, Elliot D. Subacute nerve compressions after trauma and surgery of the hand. Plast Reconstr Surg 2007; 120 (03) 705-712
- 15 Schnetzler KA. Acute carpal tunnel syndrome. J Am Acad Orthop Surg 2008; 16 (05) 276-282
- 16 Pinder RM, Brkljac M, Rix L, Muir L, Brewster M. Treatment of scaphoid nonunion: a systematic review of the existing evidence. J Hand Surg Am 2015; 40 (09) 1797-1805.e3
- 17 Bushnell BD, McWilliams AD, Messer TM. Complications in dorsal percutaneous cannulated screw fixation of nondisplaced scaphoid waist fractures. J Hand Surg Am 2007; 32 (06) 827-833
- 18 Schmitt R, Lucas D, Buhmann S, Lanz U, Schindler G. Ct findings in carpal tunnel syndrome [in German]. Röfo Fortschr Geb Röntgenstr Nuklearmed 1988; 149: 280-285
- 19 Winn Jr FJ, Habes DJ. Carpal tunnel area as a risk factor for carpal tunnel syndrome. Muscle Nerve 1990; 13 (03) 254-258