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DOI: 10.1055/s-0038-1677536
Radiographs Detect Dorsal Scaphoid Translation in Scapholunate Dissociation
Publikationsverlauf
27. August 2018
03. Dezember 2018
Publikationsdatum:
18. Januar 2019 (online)
Abstract
Background Dorsal translation of the proximal scaphoid pole onto the rim of the distal radius is a late finding associated with chronic scapholunate instability. Dorsal scaphoid translation (DST) has been identified by magnetic resonance imaging in patients with scapholunate dissociation (SLD).
Purpose The authors proposed to determine whether DST can be reliably detected on radiographs using two different measurement techniques.
Patients and Methods Lateral radiographs of 20 patients with operatively confirmed SLD were compared with 20 uninjured patients in blinded assessment. DST was assessed using the concentric circle and dorsal tangential line methods. Reliability was calculated using intraclass correlation (ICC) values.
Results Using both techniques, the scaphoid demonstrated increased dorsal translation in patients with SLD. Inter-rater reliabilities for the concentric circles and dorsal tangential line method on radiographs had ICCs > 0.80. Similarly, intra-rater reliabilities had ICCs > 0.90.
Conclusions Both the concentric circles and dorsal tangential line techniques had excellent reliabilities, but the dorsal tangential line method is clinically more practical.
Type of Study/Level of Evidence This is a Level III, diagnostic study.
Keywords
dorsal scaphoid translation - scapholunate dissociation - scapholunate interosseous ligamentNote
Investigation was performed at the Hospital for Special Surgery, 535 East 70th Street, New York, New York, 10021.
Ethical Approval
Ethical approval was obtained from our Institutional Review Board.
Each author certifies that he or she has no commercial associations (e.g., consultancies, stock ownership, equity interest, and patent/licensing arrangements) that might pose a conflict of interest in connection with the submitted article.
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References
- 1 White NJ, Rollick NC. Injuries of the scapholunate interosseous ligament: an update. J Am Acad Orthop Surg 2015; 23 (11) 691-703
- 2 Linscheid RL, Dobyns JH, Beabout JW, Bryan RS. Traumatic instability of the wrist. Diagnosis, classification, and pathomechanics. J Bone Joint Surg Am 1972; 54 (08) 1612-1632
- 3 Watson HK, Weinzweig J, Zeppieri J. The natural progression of scaphoid instability. Hand Clin 1997; 13 (01) 39-49
- 4 Short WH, Werner FW, Green JK, Masaoka S. Biomechanical evaluation of ligamentous stabilizers of the scaphoid and lunate. J Hand Surg Am 2002; 27 (06) 991-1002
- 5 Kitay A, Wolfe SW. Scapholunate instability: current concepts in diagnosis and management. J Hand Surg Am 2012; 37 (10) 2175-2196
- 6 Omori S, Moritomo H, Omokawa S, Murase T, Sugamoto K, Yoshikawa H. In vivo 3-dimensional analysis of dorsal intercalated segment instability deformity secondary to scapholunate dissociation: a preliminary report. J Hand Surg Am 2013; 38 (07) 1346-1355
- 7 Wolfe SW. Scapholunate instability. J Am Soc Surg Hand ••• 1 (01) 45-60
- 8 Gondim Teixeira PA, De Verbizier J, Aptel S. , et al. Posterior radioscaphoid angle as a predictor of wrist degenerative joint disease in patients with scapholunate ligament tears. AJR Am J Roentgenol 2016; 206 (01) 144-150
- 9 Meister DW, Hearns KA, Carlson MG. Dorsal scaphoid subluxation on sagittal magnetic resonance imaging as a marker for scapholunate ligament tear. J Hand Surg Am 2017; 42 (09) 717-721
- 10 Yang Z, Mann FA, Gilula LA, Haerr C, Larsen CF. Scaphopisocapitate alignment: criterion to establish a neutral lateral view of the wrist. Radiology 1997; 205 (03) 865-869
- 11 Patel RM, Kalainov DM, Chilelli BJ, Makowiec RL. Comparisons of three radiographic views in assessing for scapholunate instability. Hand (N Y) 2015; 10 (02) 233-238
- 12 Loredo RA, Sorge DG, Garcia G. Radiographic evaluation of the wrist: a vanishing art. Semin Roentgenol 2005; 40 (03) 248-289
- 13 Kindynis P, Resnick D, Kang HS, Haller J, Sartoris DJ. Demonstration of the scapholunate space with radiography. Radiology 1990; 175 (01) 278-280
- 14 Garcia-Elias M. Carpal instability. In: Wolfe SW, Hotchkiss RN, Pederson WC, Kozin SH. , eds. Green's Operative Hand Surgery . Philadelphia, PA: Elsevier Inc.; 2011: 465-522
- 15 Larsen CF, Mathiesen FK, Lindequist S. Measurements of carpal bone angles on lateral wrist radiographs. J Hand Surg Am 1991; 16 (05) 888-893
- 16 Landis JR, Koch GG. The measurement of observer agreement for categorical data. Biometrics 1977; 33 (01) 159-174
- 17 Watson HK, Ashmead IV D, Makhlouf MV. Examination of the scaphoid. J Hand Surg Am 1988; 13 (05) 657-660
- 18 Ruby LK, An KN, Linscheid RL, Cooney III WP, Chao EY. The effect of scapholunate ligament section on scapholunate motion. J Hand Surg Am 1987; 12 (5 Pt 1): 767-771
- 19 Nathan R, Blatt G. Rotary subluxation of the scaphoid. Revisited. Hand Clin 2000; 16 (03) 417-431
- 20 Perez AJ, Jethanandani RG, Vutescu ES, Meyers K, Lee SK, Wolfe SW. What Causes DISI? A Cadaveric Study of the Critical Ligament Stabilizers of the Intercalated Segment. 73rd Annual Meeting of the ASSH; 2018; Boston, MA
- 21 Lee SK, Sung K, Vutescu ES, Carlson MG, Wolfe SW. Postoperative Pain is Correlated with Scaphoid Dorsal Translation Following Scapholunate Ligament Reconstruction. Paper presented at: Proc. IWIW2017; San Francisco, CA