Abstract

BackgroundA Monteggia fracture is defined as a fracture of the proximal ulna combined with a luxation of the radial head. The aim of the present work is to evaluate the extent of instability of the radius head in the proximal radioulnar joint (PRUJ) as a function of the severity of elbow fracture and ligamentous injury in an experimental biomechanical approach.MethodsEight fresh-frozen cadaver arms were used. All soft tissues were removed except for the ligamentous structures of the PRUJ and forearm. A tensile force of 40 N was exerted laterally, anteriorly or posteriorly onto the proximal radius. The dislocation in the PRUJ was photometrically recorded and measured by two independent examiners. After manual dissection of the ligamentous structures up to the interosseous membrane, the instability was documented and subsequently measured. The following dissection levels were differentiated: intact ligamentous structures, dissection of annular ligament, oblique cord and proximal third of interosseous membrane.ResultsAn anterior instability remains relatively constant until the proximal third of the interosseous membrane is dissected. The radial head already dislocates relevantly in the posterior direction after dissection of the annular ligament with an additional considerable stability anteriorly and laterally. Subsequently, the posterior instability increases less pronouncedly in regard of distal resected structures. The lateral instability increases constantly during the progressing resection of the ligamentous structures.ConclusionOn the one hand, a complete healing of the ligament injury after functional treatment is hardly conceivable with ligamentary damage up to the level of the proximal interosseous membrane. A remaining instability of the proximal radius could therefore be a possible cause for the unsatisfactory clinical results after certain Monteggia fractures. On the other hand, the present study may give a possible explanation (i.e. early dorsal radius head dislocation after dissection of annular ligament) why the Bado II injury is the most frequent type of Monteggia fractures.

Highlights

  • A Monteggia fracture is defined as a fracture of the proximal ulna combined with a dislocation of the radial head [1]

  • Monteggia fractures are usually associated with a dislocation in the proximal radioulnar joint (PRUJ) [2, 3]

  • The most commonly used classification according to Bado describes in four subtypes the direction of the radius head dislocation and the angulation of the ulna fracture [4]

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Summary

Introduction

A Monteggia fracture is defined as a fracture of the proximal ulna combined with a dislocation of the radial head [1]. Monteggia fractures are usually associated with a dislocation in the proximal radioulnar joint (PRUJ) [2, 3]. The most commonly used classification according to Bado describes in four subtypes the direction of the radius head dislocation and the angulation of the ulna fracture [4]. The posterior Monteggia injury (Bado type II) is classified according to Jupiter into four subtypes and describes the accompanying ulna fracture or radius. The aim of the present work is to evaluate the extent of instability of the radius head in the proximal radioulnar joint (PRUJ) as a function of the severity of elbow fracture and ligamentous injury in an experimental biomechanical approach

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