Biomechanical evaluation of the tension band wiring principle. A comparison between two different techniques for transverse patella fracture fixation

Publication date: August 2017
Source:Injury, Volume 48, Issue 8
Author(s): Ivan Zderic, Karl Stoffel, Christoph Sommer, Dankward Höntzsch, Boyko Gueorguiev
PurposeThe aim of this study was to investigate the validity of the dynamic compression principle of tension band wiring in two techniques for patella fracture treatment.MethodsTwelve human cadaveric knees with simulated transverse patella fractures were assigned to two groups for treatment with tension band wiring using either Kirschner (K-) wires or cannulated screws. Biomechanical testing was performed over three knee movement cycles between 90° flexion and 0° full extension. Pressure distribution in the fracture gap and fracture site displacement were evaluated at the 3^rd cycle in 15° steps, namely 90°–75°–60°–45°–30°–15°–0° extension phase and 0°–15°–30°–45°–60°–75°–90° flexion phase.ResultsMean anterior / posterior interfragmentary pressure in the groups with K-wires and cannulated screws ranged within 0.16–0.40MPa / 0.12–0.35MPa and 0.37–0.59MPa / 0.10–0.30MPa, respectively. These changes remained non-significant for both groups and loading phases (P≥0.171). Mean anterior / posterior fracture site displacement for K-wires and cannulated screws ranged within −0.01–0.53mm / 0.11–0.74mm and 0.11–0.55mm / –0.10–0.50mm, respectively. Anterior displacement remained without significant changes for both groups and loading phases (P≥0.112). However, posterior displacement underwent a significant increase in the course of knee extension for K-wires (P≤0.047), but not for cannulated screws (P≥0.202). Significantly smaller displacement at the posterior fracture site was detected in the group with cannulated screws compared to K-wires at 60° and 75° extension phase (P≤0.017), as well as at 45°, 60° and 75° flexion phase (P≤0.018). The critical value of 2mm displacement at the posterior fracture site was not reached for any specimen and fixation technique. Knee extension was accompanied by synchronous increase in quadriceps pulling force.ConclusionsTension band wiring fulfills from a biomechanical perspective the requirements for sufficient stability of transverse patella fracture fixation. It should, however, rather be considered as a static fixation principle than a dynamic one. Tension band wiring with cannulated screws was found advantageous over Kirschner wires in terms of interfragmentary movements at the posterior fracture site.



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