Bicortical Compression and Construct Stability with Variable Pitch Locking Screws in Cadaveric Specimens

Zachary A. Koroneos, Shelby Alwine, Peter Tortora, Michaela Pitcher, Christian Benedict, Hwabok Wee, Allen Kunselman, Michael Aynardi, Gregory S. Lewis

Research output: Contribution to journalArticlepeer-review

Abstract

OBJECTIVES:A variable pitch locking screw is intended to provide interfragmentary compression combined with fixed angle stability of locking plate constructs. The objective of this study was to compare variable pitch locking screws (3.5 mm KreuLock Ti Locking Compression Screws, Arthrex Inc., Naples FL) with standard locking screws (from same manufacturer) in bicortical fixation scenarios in cadaver bone, by assessing: (1) interfragmentary compression and plate-bone compression; and (2) construct biomechanical stability.METHODS:Nine matched pairs of fresh-frozen cadaveric specimens with an average age of 67.2 years (range, 37-83) were used. Interfragmentary compression and plate-bone compression associated with insertion of single bicortical screws were compared between the variable pitch and standard locking screws at increasing levels of torque. The specimens tested were distal tibiae having a simulated longitudinal fracture. Fibulae were osteotomized to create a stable longitudinal fracture pattern and were fixed with a five-screw plate construct with either all variable pitch or all standard locking screws. One of the five screws was placed across the osteotomy without lagging. Fibulae were tested cyclically with axial with torsional loading to compare, displacements, rotation and loads at failure, or tested in four-point bending to compare construct stiffness and maximum force to failure.RESULTS:Interfragmentary and plate-bone compression forces in the distal tibia model varied across specimens but were significantly higher with variable pitch locking screws compared to standard locking screws [512 N (SD = 324 N) vs. 79 N (SD = 64 N), p = 0.002 & 242 N (SD = 119 N) vs. 104 N (SD = 123 N), p = 0.028, respectively]. In cyclic loading of fibula constructs, no significant differences were detected in construct axial displacement or angular displacement (p > 0.05). In four-point bending, no differences were detected in maximum force or bending stiffness (p > 0.05).CONCLUSIONS:Variable pitch locking screws produced interfragmentary compression between cortices and plate-bone compression that were greater than standard locking screws. In a stable bicortical fibula fixation scenario under external loading, the stability of variable pitch locking screw constructs was similar to constructs with standard locking screws.

Original languageEnglish (US)
JournalJournal of orthopaedic trauma
DOIs
StateAccepted/In press - 2024

All Science Journal Classification (ASJC) codes

  • Surgery
  • Orthopedics and Sports Medicine

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