Biomechanical comparison of a lateral polyaxial locking plate with a posterolateral polyaxial locking plate applied to the distal fibula

Jakob Hallbauer; Kajetan Klos; Sascha Rausch; Andreas Gräfenstein; Felix Wipf; Claudia Beimel; Gunther Hofmann; Thomas Mückley

doi:10.1016/j.fas.2014.03.005

Biomechanical comparison of a lateral polyaxial locking plate with a posterolateral polyaxial locking plate applied to the distal fibula

Foot Ankle Surg. 2014 Sep;20(3):180-5. doi: 10.1016/j.fas.2014.03.005. Epub 2014 Apr 13.

Authors

Jakob Hallbauer¹, Kajetan Klos², Sascha Rausch³, Andreas Gräfenstein⁴, Felix Wipf⁵, Claudia Beimel⁶, Gunther Hofmann⁷, Thomas Mückley⁴

Affiliations

¹ Department of Trauma, Hand and Reconstructive Surgery, Jena University Hospital, Jena, Germany. Electronic address: Jakob.Hallbauer@med.uni-jena.de.
² Department of Foot and Ankle Surgery, St. Vincenz and Elisabeth Hospital Mainz, Germany.
³ Department of Trauma, Hand and Reconstructive Surgery, Jena University Hospital, Jena, Germany.
⁴ Department of Trauma, Hand and Reconstructive Surgery, HELIOS Clinical Centre, Erfurt, Germany.
⁵ Stryker Trauma AG, Selzach, Switzerland.
⁶ Stryker Trauma GmbH, Schönkirchen, Germany.
⁷ Department of Trauma, Hand and Reconstructive Surgery, Jena University Hospital, Jena, Germany; Department of Trauma and Reconstructive Surgery, BG Centres Bergmannstrost, Halle, Germany.

PMID: 25103705
DOI: 10.1016/j.fas.2014.03.005

Abstract

Background: Polyaxial locking plates are becoming popular for the fixation of distal fibula fractures. This study establishes how construct stiffness and plate loosening, measured as range of motion, differs between lateral and posterolateral plate location.

Methods: Seven matched pairs of cadaver fibulae were osteotomized in standardized fashion to produce a Weber type B distal fibula fracture. The fragments were fixated with an interfragmentary lag screw and polyaxial locking plates, with one fibula in each pair receiving a posterolateral anti-glide-plate, and the other a lateral neutralization-plate. In a biomechanical test, the bending and torsional stiffnesses of the constructs and the ranges of motion (ROM) were measured and subjected to a paired comparison.

Results: The laterally plated group had a higher median (interquartile range) bending stiffness (29.2 (19.7) N/mm) and a smaller range of motion (2.06 (1.99) mm) than the posterolaterally plated group (14.6 (20.6) N/mm, and 4.11 (3.28) mm, respectively); however, the results were not statistically significant (pbending=0.314; pROM=0.325). Similarly, the torsional stiffness did not differ significantly between the two groups (laterally plated: 426 (259) Nmm/°; posterolaterally plated: 248 (399) Nmm/°; ptorsion=0.900). The range of motion measurements between the two groups under torsional loading were also statistically insignificant (laterally plated: 8.88 (6.30) mm; posterolaterally plated: 15.34 (12.64) mm; pROM=0.900).

Conclusion: In biomechanical cadaver-model tests of Weber type B fracture fixation with polyaxial locking plates, laterally plated constructs and posterolaterally plated constructs performed without significantly difference. Therefore, other considerations, such as access morbidity, associated injuries, patient anatomy, or surgeon's preference, may guide the choice of plating pattern. Further clinical studies will be needed for the establishment of definitive recommendations.

Clinical relevance: Information on the behavior of polyaxial locking plates is relevant to surgeons performing internal fixation of distal fibula fractures.

Keywords: Ankle; Biomechanical tests; Fibula fracture; Locking plate; Polyaxial.

Publication types

Comparative Study
Research Support, Non-U.S. Gov't

MeSH terms

Aged
Aged, 80 and over
Bone Plates*
Bone Screws
Cadaver
Equipment Design
Fibula / injuries*
Fibula / surgery
Fracture Fixation, Internal / instrumentation*
Fractures, Bone / surgery*
Humans
Male
Materials Testing
Middle Aged
Osteotomy
Range of Motion, Articular
Torsion, Mechanical
Weight-Bearing