Journal of Orthopaedic Translation (Mar 2021)

Comminuted patellar fractures: The role of biplanar fixed angle plate constructs

  • Mauricio Kfuri,
  • Igor Escalante,
  • Clemens Schopper,
  • Ivan Zderic,
  • Karl Stoffel,
  • Christoph Sommer,
  • Feras Qawasmi,
  • Matthias Knobe,
  • Geoff Richards,
  • Boyko Gueorguiev

Journal volume & issue
Vol. 27
pp. 17 – 24

Abstract

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Background: Comminuted patellar fractures represent a challenging clinical problem. Their treatment aims to restore the integrity of the extensor mechanism and the congruity of patellofemoral joint. Controversy exists regarding the ideal fixation method. Metallic constructs aiming to convert pulling forces on the anterior aspect of the patella into compression forces across the fracture site are the standard of care. More recently, low profile plates have been described in the management of comminuted patellar fractures. The aims of this study were to (1) develop a novel unstable patellar fracture model and (2) compare biomechanically three different constructs for fixation of comminuted patellar fractures. We hypothesized that an orthogonal biplanar disposition of the screws within an anteriorly placed locking plate provides the best biomechanical performance in the management of comminuted fractures. Methods: Six-part complex AO 34–C3 patellar fractures were simulated in 18 human cadaveric knees by means of osteotomies including comminution around the distal patellar pole. The specimens were randomly assigned to 3 fixation techniques (n ​= ​6) for either anterior mesh plating, antero-lateral mesh plating, or tension band wiring (TBW). Biomechanical testing was performed over 5000 cycles in active extension and passive flexion, followed by ultimate destructive quasi-static testing. Interfragmentary movements were captured by means of optical motion tracking. Results: Displacement between the proximal and distal medial patellar fragments was lower after anterior plating compared to both antero-lateral plating (P ​= ​0.084) and TBW (P ​< ​0.001). Moreover, displacement between the proximal and distal lateral fragments was significantly lower after anterior plating compared to both other techniques (P ​≤ ​0.032). In addition, it was significantly lower for antero-lateral plating versus TBW (P ​< ​0.001). Rotation around the medio-lateral axis between the proximal and distal medial fragments was significantly lower after anterior plating compared to TBW (P ​= ​0.017). Conclusions: Anterior mesh plating with biplanar placement of locking screws provides superior stability for fixation of comminuted patellar fractures when compared to both antero-lateral mesh plating and TBW. The latter is associated with considerably inferior performance.

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