Enhanced Stability of Kirschner Wire Fixation for Articular Fractures of Distal Humerus with Locked Kirschner Wire Fixation: A Finite Element Analysis

Authors

  • Nattapon Chantarapanich, PhD Department of Mechanical Engineering, Faculty of Engineering at Sriracha, Kasetsart University, Sriracha Campus, Chon Buri, Thailand
  • Surasak Jitprapaikulsarn, MD Department of Orthopedic, Buddhachinraj Hospital, Phitsanulok, Thailand
  • Chantas Mahaisavariya, MD Golden Jubilee Medical Center, Faculty of Medicine Siriraj Hospital, Mahidol University, Bangkok, Thailand

Keywords:

Locked K-wire, Distal humerus, fracture, K-wire, Pin and plate

Abstract

Purpose: Condylar fractures of distal humerus with or without comminution are difficult to restore and stabilize. Some fracture configurations may not be firmly stabilized by standard plate fixation only. Such conditions, K-wire fixation may be helpful for supplement fixation to fix the articular fragment beyond the area of the plate and screw that can be covered. However, using traditional straight K-wire fixation has been reported with poor outcome. The aim of this study is to evaluate the biomechanical behavior of “locked K-wire fixation” mode – the extraosseous part of K-wire is bended and the bent portion is fixed underneath a small plate and screw – compare with traditional straight K-wire for fixation of condylar fractures of distal humerus.

Methods: The 3D model of unicondylar and bicondylar fractures of distal humerus was simulated with type 13-B1, 13-B2 and combined 13-B1+ 13-B2 AO classification intra-condylar fracture based on computed tomography (CT) data. The fixation configuration was created into locked K-wire fixation mode. The stability of fixation method and the von Mises stress were analyzed using finite element analysis (FEA) compared with traditional straight K-wire fixation model. Four loading situation simulated in this study, which were 250 N axial force, 10 N.m bending torsion around frontal, 10 N.m valgus torsion around sagittal axis and 7.5 N.m internal rotation torsion around the longitude axis.

Result: Locked K-wire fixation mode provides better stability and lower von Mises stress than straight K-wire fixation in unicondylar fractures in both 13-B1 and 13-B2 AO fracture types. For bicondylar fractures (13-B1+13-B2), locked K-wire fixation using 2-K-wire with bent portion at lateral side provide better stability and lower von Mises stress of K-wire than traditional 2 straight K-wires fixation in almost all loading test. Locked K-wire using 2 K-wire and bent portion at medial side provide better outcome in only axial compression and valgus rotation tests. Using combine 2 locked K-wire with bent portion at medial side and another 2 at lateral side provide better stability and lower von Mises stress than 4 straight K-wire fixation in all testing conditions. 

Conclusion: Locked K-wire fixation provide better stability than traditional straight K-wire fixation for condylar fracture both for unilateral and bilateral condylar fractures of distal humerus. The method will be benefit in case that the articular fragment cannot be covered by the plate fixation system that need supplement K-wire fixation for unstable condylar fragments.

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Published

2022-03-08

How to Cite

1.
Chantarapanich, PhD N, Jitprapaikulsarn, MD S, Mahaisavariya, MD C. Enhanced Stability of Kirschner Wire Fixation for Articular Fractures of Distal Humerus with Locked Kirschner Wire Fixation: A Finite Element Analysis. JseaOrtho [Internet]. 2022 Mar. 8 [cited 2024 Dec. 22];44(1-2):17-26. Available from: https://jseaortho.org/index.php/jsao/article/view/40

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