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DOI: 10.1055/a-1253-7896
Chopart- und Lisfranc-Luxationsverletzungen – operative Zugangswege, Lagerungstechniken sowie intraoperative Erfolgskontrolle
Injuries of the Midfoot and Forefoot. Operative Approaches, Intraoperative Positioning and Imaging
Zusammenfassung
Eine hohe Zahl von Kombinationsverletzungen der Fußwurzel wird primär nicht erkannt (20 – 25%). Insbesondere Luxationsfrakturen sind folgenschwere Verletzungen und können mit erheblichen funktionellen Einschränkungen verbunden sein. Eine suffiziente Primärdiagnostik beinhaltet Standardröntgenaufnahmen des Fußes in 3 Ebenen. Bei klinischem Verdacht sollte die Indikation zur erweiterten Schnittbildgebung mittels Computertomografie mit multiplanaren Rekonstruktionen großzügig gestellt werden. Die physiologische Rekonstruktion der Gelenkstrukturen und Lagebeziehungen der medialen zur zentralen und lateralen Fußsäule sowie die Erfassung und Therapie ligamentärer Instabilitäten sind elementare Bestandteile einer adäquaten Behandlung. Können diese Prinzipien nicht erreicht werden, sind Korrekturarthrodesen im Verlauf unvermeidlich. Mittels Bildverstärker können latente Instabilitäten auch im Stresstest dynamisch untersucht werden. Bei chronischen Beschwerden können Belastungsaufnahmen im Stehen helfen, Instabilitäten und Fehlstellungen zu erkennen.
Abstract
A high number of combined or isolated injuries of the front- and midfoot including fractures, dislocations and/or fracture dislocations of the Chopart and Lisfranc joint lines are initially misdiagnosed or overlooked (20 – 25%). Especially fracture dislocations are serious injuries leading to massive impaired functional outcome. A sufficient primary diagnosis including standard conventional X-rays in three planes of the foot (dorso-plantar, lateral and lateral oblique views). If an injury of the front- or midfoot is suspected, CAT scanning and multiplanar reconstruction should be obtained broadly. The physiological reconstruction of the medial to the central and lateral coloumn of the foot is essential as well as the recognition and adequate treatment of concomitant ligamentous instabilities. Chronic instabilities can be determined by weight-bearing radiographs or dynamic assessment revealing manifest displacement and malalignment under load.
Publication History
Article published online:
15 July 2021
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Literatur
- 1 Mittlmeier T, Beck M. [Injuries of the midfoot]. Chirurg 2011; 82: 169-186 quiz 187–188
- 2 Klaue K. Chopart fractures. Injury 2004; 35 (Suppl. 02) SB64-SB70
- 3 Hansen ST. Functional Reconstruction of the Foot and Ankle. Philadelphia: Lippincott Williams & Wilkins; 2000
- 4 Hardcastle PH, Reschauer R, Kutscha-Lissberg E. et al. Injuries to the tarsometatarsal joint. Incidence, classification and treatment. J Bone Joint Surg Br 1982; 64: 349-356
- 5 Mittlmeier T, Beck M. Tarsometatarsal injuries – an often neglected entity. Ther Umsch 2004; 61: 459-465
- 6 Richter M, Wippermann B, Krettek C. et al. Fractures and fracture dislocations of the midfoot: occurrence, causes and long-term results. Foot Ankle Int 2001; 22: 392-398
- 7 Talarico RH, Hamilton GA, Ford LA. et al. Fracture dislocations of the tarsometatarsal joints: Analysis of interrater reliability in using the modified Hardcastle classification system. J Foot Ankle Surg 2006; 45: 300-303
- 8 Zwipp H. Chirurgie des Fußes. Wien: Springer; 1994
- 9 Philbin T, Rosenberg G, Sferra JJ. Complications of missed or untreated Lisfranc injuries. Foot Ankle Clin 2003; 8: 61-71
- 10 Richter M, Thermann H, Huefner T. et al. Chopart joint fracture-dislocation: initial open reduction provides better outcome than closed reduction. Foot Ankle Int 2004; 25: 340-348
- 11 Rammelt S, Grass R, Schikore H. et al. [Injuries of the Chopart joint]. Unfallchirurg 2002; 105: 371-383 quiz 384–385
- 12 Rammelt S, Grass R, Zwipp H. Nutcracker fractures of the navicular and cuboid. Ther Umsch 2004; 61: 451-457
- 13 Swords MP, Schramski M, Switzer K. et al. Chopart fractures and dislocations. Foot Ankle Clin 2008; 13: 679-693 viii
- 14 Gupta RT, Wadhwa RP, Learch TJ. et al. Lisfranc injury: imaging findings for this important but often-missed diagnosis. Curr Probl Diagn Radiol 2008; 37: 115-126
- 15 Thordarson D. Fractures of the Midfoot and Forefoot. In: Myerson MS. ed. Foot and Ankle Disorders. Vol 2. Philadelphia: WB Saunders; 2000: 1265-1296
- 16 Peicha G, Labovitz J, Seibert FJ. et al. The anatomy of the joint as a risk factor for Lisfranc dislocation and fracture-dislocation. An anatomical and radiological case control study. J Bone Joint Surg Br 2002; 84: 981-985
- 17 Sands AK, Grose A. Lisfranc injuries. Injury 2004; 35 (Suppl. 02) SB71-SB76
- 18 Mittlmeier T, Klaue K, Beck M. [Posttraumatic arthritis in the hind foot]. Unfallchirurg 2006; 109: 125-146 quiz 147–148
- 19 Zwipp H, Rammelt S. [Posttraumatic deformity correction at the foot]. Zentralbl Chir 2003; 128: 218-226
- 20 Grivas TB, Vasiliadis ED, Koufopoulos G. et al. Midfoot fractures. Clin Podiatr Med Surg 2006; 23: 323-341 vi
- 21 Haapamaki V, Kiuru M, Koskinen S. Lisfranc fracture-dislocation in patients with multiple trauma: diagnosis with multidetector computed tomography. Foot Ankle Int 2004; 25: 614-619
- 22 Main BJ, Jowett RL. Injuries of the midtarsal joint. J Bone Joint Surg Br 1975; 57: 89-97
- 23 Nunley JA, Vertullo CJ. Classification, investigation, and management of midfoot sprains: Lisfranc injuries in the athlete. Am J Sports Med 2002; 30: 871-878
- 24 Preidler KW, Peicha G, Lajtai G. et al. Conventional radiography, CT, and MR imaging in patients with hyperflexion injuries of the foot: diagnostic accuracy in the detection of bony and ligamentous changes. AJR Am J Roentgenol 1999; 173: 1673-1677
- 25 Richter M, Geerling J, Zech S. et al. Intraoperative three-dimensional imaging with a motorized mobile C-arm (SIREMOBIL ISO-C-3D) in foot and ankle trauma care: a preliminary report. J Orthop Trauma 2005; 19: 259-266
- 26 Chandran P, Puttaswamaiah R, Dhillon MS. et al. Management of complex open fracture injuries of the midfoot with external fixation. J Foot Ankle Surg 2006; 45: 308-315
- 27 Lisanti M, Rosati M, Nesti C. et al. Our results in the treatment of fractures dislocations of Lisfrancʼs joint. Chir Organi Mov 2001; 86: 281-291
- 28 Rammelt S, Biewener A, Grass R. et al. [Foot injuries in the polytraumatized patient]. Unfallchirurg 2005; 108: 858-865
- 29 Cook KD, Jeffries LC, OʼConnor JP. et al. Determining the strongest orientation for “Lisfrancʼs screw” in transverse plane tarsometatarsal injuries: a cadaveric study. J Foot Ankle Surg 2009; 48: 427-431
- 30 Cottom JM, Hyer CF, Berlet GC. Treatment of Lisfranc fracture dislocations with an interosseous suture button technique: a review of 3 cases. J Foot Ankle Surg 2008; 47: 250-258
- 31 Gaines RJ, Wright G, Stewart J. Injury to the tarsometatarsal joint complex during fixation of Lisfranc fracture dislocations: an anatomic study. J Trauma 2009; 66: 1125-1128
- 32 Ly TV, Coetzee JC. Treatment of primarily ligamentous Lisfranc joint injuries: primary arthrodesis compared with open reduction and internal fixation. A prospective, randomized study. J Bone Joint Surg Am 2006; 88: 514-520
- 33 Böhler L, Jeschke W. Technik der Knochenbruchbehandlung im Frieden und im Kriege Bd. 2. 8. Auflage der 7. vollst. umg. u. um d. Kriegschirurgie verm. Aufl.. Wien: Maudrich; 1942: 1439
- 34 Ricci WM, Bellabarba C, Sanders R. Transcalcaneal talonavicular dislocation. J Bone Joint Surg Am 2002; 84: 557-561
- 35 Perugia D, Basile A, Battaglia A. et al. Fracture dislocations of Lisfrancʼs joint treated with closed reduction and percutaneous fixation. Int Orthop 2003; 27: 30-35
- 36 Zgonis T, Roukis TS, Polyzois VD. Lisfranc fracture-dislocations: current treatment and new surgical approaches. Clin Podiatr Med Surg 2006; 23: 303-322 vi
- 37 Teng AL, Pinzur MS, Lomasney L. et al. Functional outcome following anatomic restoration of tarsal-metatarsal fracture dislocation. Foot Ankle Int 2002; 23: 922-926
- 38 Coetzee JC. Making sense of lisfranc injuries. Foot Ankle Clin 2008; 13: 695-704 ix
- 39 Mulier T, Reynders P, Dereymaeker G. et al. Severe Lisfrancs injuries: primary arthrodesis or ORIF?. Foot Ankle Int 2002; 23: 902-905
- 40 Rammelt S, Schneiders W, Schikore H. et al. Primary open reduction and fixation compared with delayed corrective arthrodesis in the treatment of tarsometatarsal (Lisfranc) fracture dislocation. J Bone Joint Surg Br 2008; 90: 1499-1506
- 41 Henning JA, Jones CB, Sietsema DL. et al. Open reduction internal fixation versus primary arthrodesis for lisfranc injuries: a prospective randomized study. Foot Ankle Int 2009; 30: 913-922
- 42 Buda M, Kink S, Stavenuiter R. et al. Reoperation Rate Differences Between Open Reduction Internal Fixation and Primary Arthrodesis of Lisfranc Injuries. Foot Ankle Int 2018; 39: 1089-1096
- 43 Matar HE, Atkinson HD, Toh EM. et al. Surgical interventions for treating tarsometatarsal (Lisfranc) fracture dislocations. Cochrane Database Syst Rev 2014; (07) CD011235
- 44 Matar HE, Atkinson HD, Toh EM. et al. Surgical interventions for treating tarsometatarsal (Lisfranc) fracture dislocations. Cochrane Database Syst Rev 2017; (09) CD011235
- 45 Alcelik I, Fenton C, Hannant G. et al. A systematic review and meta-analysis of the treatment of acute lisfranc injuries: Open reduction and internal fixation versus primary arthrodesis. Foot Ankle Surg 2020; 26: 299-307
- 46 Ponkilainen VT, Mattila VM, Laine H-J. et al. Nonoperative, open reduction and internal fixation or primary arthrodesis in the treatment of Lisfranc injuries: a prospective, randomized, multicenter trial – study protocol. BMC Musculoskelet Disord 2018; 19: 301