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Archives of Orthopaedic and Trauma Surgery

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01-02-2018 | Handsurgery

Perilunate fracture-dislocations: clinical and radiological results of 21 cases

Authors: Thomas Meszaros, Esther Vögelin, Lukas Mathys, Franck Marie Leclère

Published in: Archives of Orthopaedic and Trauma Surgery | Issue 2/2018

Abstract

Background

Perilunate dislocations and fracture-dislocations are a subcategory of the carpal instability complex. Herein, we report our university hospital experience with this complex injury. The goal of our study was to find predictive factors and quantify the development of arthritis and lunate necrosis. We tried to measure the impact of arthritis on hand function.

Methods

Between January 2000 and December 2014, 21 patients underwent surgery for perilunate dislocations and perilunate fracture-dislocations of the wrist in our tertiary university center. Mean patient age was 29.3 ± 10.0 years (range 18–49 years). All displacements were posterior. They were reviewed both clinically and radiologically.

Results

Complications included misdiagnosed Essex-Lopresti-like lesion in one case, insufficient reposition of the carpus in two cases (LT in one case, SL in one case), and iatrogenic injury to the radial artery immediately sutured in one case. All 3 cases underwent a second procedure with satisfactory outcome. After a mean follow-up of 112 ± 60 months (range 12–210 months), the average Cooney score was 80 ± 19 (range 50–125). The mean PRWE score was 10 ± 8 (range 0–25). The mean DASH score was 40 ± 13 (range 30–75 months). Mean pain on load, measured with VAS was 1.1 ± 1.6; Clinical examination assessed a mean wrist extension/flexion of 42.4° ± 17.2°/48.4° ± 15.2°. Mean wrist ulnar/radial deviation was, respectively, 22.9° ± 11.3°/15.3° ± 7.0°. Mean pro/supination was, respectively, 75.2° ± 11.5°/76.3° ± 8.1°. Mean pinch strength was 9.4 ± 2.2 kg (87.4 ± 17.7% of the contralateral side). Mean power strength was 41.9 ± 9.9 kg (76.2 ± 19.2% of the contralateral side). Two patients had a scaphoid non-union identified on their most recent imaging. The mean carpal height ratio was 0.53 ± 0.05 (range 0.44–0.65). All except one patient developed arthritis: Grade 1 in 11 patients, Grade 2 in 3 patients, and Grade 3 in the remaining 6 patients. Age, length of follow-up, and loss of reduction were significantly associated with wrist arthritis (p < 0.001). Lunate avascular necrosis assessed by magnetic resonance imaging was present in 6 patients: Stage 2 in 4 patients, Stage 3a in 1 patient, and Stage 3b in the remaining patient. All these patients’ intraoperative findings showed lesion of the cartilage of the radial side of the lunate. However, the small number of patients who developed lunate necrosis did not allow satisfactory statistical analysis.

Conclusions

This retrospective study demonstrates good functional results despite the high rate of radiological wrist arthritis. Age, length of follow-up, and loss of reduction were significantly associated with wrist arthritis in our series.

Soejima O, Lida H, Naito M (2003) Transscaphoid-transtriquetral perilunate fracture dislocation: report of a case and review of the literature. Arch Orthop Trauma Surg 123:305–307CrossRefPubMed

Wingelaar M, Newbury P, Adams NS, Livingston AJ (2016) Lunate dislocation and basic wrist kinematics. Eplasty 16:37–39

Blazar PE, Murray P (2001) Treatment of perilunate dislocations by combined dorsal and palmar approaches. Tech Hand Up Extrem Surg 5:2–7CrossRefPubMed

Griffin M, Roushdi I, Osagie L, Cerovac S, Umarji S (2016) Patient-reported outcomes following surgically managed perilunate dislocation: outcomes after perilunate dislocation. Hand (NY) 11:22–28CrossRef

Cooney WP, Bussey R, Dobyns JH, Linscheid RL (1987) Difficult wrist fractures. perilunate fracture-dislocations of the wrist. Clin Orthop Relat Res 214:136–147

DiGiovanni B, Shaffer J (1995) Treatment of perilunate and transscaphoid perilunate dislocations of the wrist. Am J Orthop (Belle Mead NJ) 24:818–826

Forli A, Courvoisier A, Wimsey S, Corcella D, Moutet F (2010) Perilunate dislocations and transscaphoid perilunate fracture–dislocations: a retrospective study with minimum ten-year follow-up. J Hand Surg 35:62–68CrossRef

Knoll VD, Allan C, Trumble TE (2005) Trans-scaphoid perilunate fracture dislocations: results of screw fixation of the scaphoid and lunotriquetral repair with a dorsal approach. J Hand Surg 30:1145–1152CrossRef

Herbert TJ, Fisher WE (1984) Management of the fractured scaphoid using a new bone screw. J Bone Joint Surg Br 66:114–123PubMed

10.

Herzberg G, Comtet JJ, Linscheid RL, Amadio PC, Cooney WP, Stalder J (1993) Perilunate dislocations and fracture–dislocations: a multicenter study. J Hand Surg Am 18:768–779CrossRefPubMed

11.

Herzberg G, Forissier D (2002) Acute dorsal trans-scaphoid perilunate fracture-dislocations: medium-term results. J Hand Surg 27:498–502CrossRef

12.

Mayfield JK, Johnson RP, Kilcoyne RK (1980) Carpal dislocations: pathomechanics and progressive perilunar instability. J Hand Surg 5:226–241CrossRef

13.

Neshkova IS, Jakubietz RG, Kuk D, Jakubietz MG, Meffert RH, Schmidt K (2015) Percutaneous screw fixation of non- or minimally displaced scaphoid fractures. Oper Orthop Traumatol 27:448–454CrossRefPubMed

14.

Quadlbauer S, Beer T, Pezzei C, Jurkowitsch J, Tichy A, Hausner T, Leixnering M (2017) Stabilization of scaphoid type B2 fractures with one or two headless compression screws. Arch Orthop Trauma Surg 137:1587–1595CrossRefPubMed

15.

Griffis CE, Olsen C, Nesti L, Gould CF, Frew M, McKay P (2017) Validity of computed tomography in predicting scaphoid screw prominence: a cadaveric study. Arch Orthop Trauma Surg 137:573–577CrossRefPubMed

16.

Jurkowitsch J, Dall’Ara E, Quadlbauer S, Pezzei C, Jung I, Pahr D, Leixnering M (2016) Rotational stability in screw-fixed scaphoid fractures compared to plate-fixed scaphoid fractures. Arch Orthop Trauma Surg 136:1623–1628CrossRefPubMed

17.

Germann G, Wind G, Harth A (1999) The DASH (Disability of Arm-Shoulder-Hand) Questionnaire–a new instrument for evaluating upper extremity treatment outcome. Handchir Mikrochir Plast Chir 31:149–152CrossRefPubMed

18.

Changulani M, Okonkwo U, Keswani T, Kalairajah Y (2008) Outcome evaluation measures for wrist and hand: which one to choose? Int Orthop 32:1–6CrossRefPubMed

19.

Youm Y, Mc Murthy RY, Flatt AE, Gillespie TE (1978) Kinematics of the wrist. An experimental study of radial-ulnar deviation and flexion-extension. J Bone Joint Surg 60:423–431CrossRefPubMed

20.

Weiss KE, Rodner CM (2007) Osteoarthritis of the wrist. J Hand Surg 32A:725–746CrossRef

21.

Lichtman DM, Mack GR, MacDonKald RI, Gunther SF, Wilson JN (1977) Kienböck’s disease: the role of silicone replacement arthroplasty. J Bone Joint Surg 7:899–908CrossRef

22.

Martinage A, Balaguer T, Chignon-Sicard B, Monteil MC, Dréant N, Lebreton E (2008) Perilunate dislocations and fracture-dislocations of the wrist, a review of 14 cases. Chir Main 27:31–39CrossRefPubMed

23.

Inoue G, Imaeda T (1997) Management of trans-scaphoid perilunate dislocations. Herbert screw fixation, ligamentous repair and early wrist mobilization. Arch Orthop Trauma Surg 116:338–340CrossRefPubMed

24.

Inoue G, Kuwahata Y (1997) Management of acute perilunate dislocations without fracture of the scaphoid. J Hand Surg 22:647–652CrossRef

25.

Sotereanos DG, Mitsionis GJ, Giannakopoulos PN, Tomaino MM, Herndon JH (1997) Perilunate dislocation and fracture dislocation: a critical analysis of the volar–dorsal approach. J Hand Surg 22:49–56CrossRef

26.

Hildebrand KA, Ross DC, Patterson SD, Roth JH, MacDermid JC, King GJ (2000) Dorsal perilunate dislocations and fracture–dislocations: questionnaire, clinical, and radiographic evaluation. J Hand Surg 25:1069–1079CrossRef

27.

Trumble T, Verheyden J (2004) Treatment of isolated perilunate and lunate dislocations with combined dorsal and volar approach and intraosseous cerclage wire. J Hand Surg 29:412–417CrossRef

28.

Sorensen AA, Howard D, Tan WH, Ketchersid J, Calfee RP (2013) Minimal clinically important differences of 3 patient-rated outcomes instruments. J Hand Surg 38:641–649CrossRef

Title: Perilunate fracture-dislocations: clinical and radiological results of 21 cases
Authors: Thomas Meszaros
Esther Vögelin
Lukas Mathys
Franck Marie Leclère
Publication date: 01-02-2018
Publisher: Springer Berlin Heidelberg
Published in: Archives of Orthopaedic and Trauma Surgery / Issue 2/2018
Print ISSN: 0936-8051
Electronic ISSN: 1434-3916
DOI: https://doi.org/10.1007/s00402-017-2861-1

At a glance: The STEP trials

Springer Medicine

Perilunate fracture-dislocations: clinical and radiological results of 21 cases

Abstract

Background

Methods

Results

Conclusions

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Methods

Results

Conclusions

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