The Effect of Plate Working Length on Interfragmentary Movement in a Distal Femoral Fracture: A Biomechanical Study
Jacob Lagoni, Asger M Haugaard, Isabelle B Pfander, Ilija Ban, Marie S Traberg, Søren Ohrt-Nissen

TL;DR
This study examines how the length of a locking plate affects bone movement in distal femoral fractures under realistic loading conditions.
Contribution
The study provides a biomechanical model to predict interfragmentary movement based on plate working length and femur characteristics.
Findings
Shorter working length plates showed less axial interfragmentary movement compared to longer plates.
Longer working length plates resulted in significantly higher lateral (shear) movement.
Plate deformation had negligible contribution to observed micromotion in axial loading.
Abstract
Background Distal femoral fractures are typically treated by bridging with locking plates. The mechanical environment is influenced by working length (WL), with larger WL theoretically increasing the interfragmentary movement (IFM). However, considering the strength of modern locking plates, the effect of WL is questionable. The aim of this study was to quantify the effect of WL on IFM in distal femoral fractures at an approximated physiological load. Materials and methods Ten fourth-generation composite femurs with a 10 mm transverse fracture gap were uniformly fixed to a 13-hole locking plate with a short (95 mm) and long (175 mm) WL. The constructs were mounted in an Instron machine (Instron, Norwood, MA) and axially loaded from 50 to 750 N, 50,000 times. The micromotion was measured with the digital image correlation method of the implant-femur construct under cyclic loading. A…
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Taxonomy
TopicsOrthopaedic implants and arthroplasty · Bone fractures and treatments · Orthopedic Surgery and Rehabilitation
