Influence of Screw-Hole Defect Size on the Biomechanical Properties of Feline Femora in an Ex Vivo Model.

Abstract

OBJECTIVE: &#x2003;The study aims to evaluate the biomechanical properties of feline femora with craniocaudal screw-hole defects of increasing diameter, subjected to three-point bending and torsion to failure at two different loading rates. STUDY DESIGN: &#x2003;Eighty femoral pairs were harvested from adult cat cadavers. For each bending and torsional experiment, there were five groups (&#x2009;=&#x2009;8 pairs) of increasing craniocaudal screw-hole defects (intact, 1.5&#x2009;mm, 2.0&#x2009;mm, 2.4&#x2009;mm, 2.7mm). Mid-diaphyseal bicortical defects were created with an appropriate pilot drill-hole and tapped accordingly. Left and right femora of each pair were randomly assigned to a destructive loading protocol at low (10&#x2009;mm/min; 0.5&#x2009;degrees/s) or high rates (3,000&#x2009;mm/min; 90&#x2009;degrees/s) respectively. Stiffness, load/torque-to-failure, energy-to-failure and fracture morphology were recorded. RESULTS: &#x2003;Defect size to bone diameter ratio was significantly different between defect groups within bending and torsional experiments respectively (intact [0%; 0%], 1.5&#x2009;mm [17.8%; 17.1%], 2.0&#x2009;mm [22.8%; 23.5%], 2.4&#x2009;mm [27.8%; 27.6%], 2.7&#x2009;mm [31.1%; 32.4%]) (&#x2009;<&#x2009;0.001). No significant differences in stiffness and load/torque-to-failure were noted with increasing deficit sizes in all loading conditions. Screw-hole (2.7&#x2009;mm) defects up to 33% bone diameter had a maximum of 20% reduction in bending and torsional strength compared with intact bone at both loading rates. Stiffness and load/torque-to-failure in both bending and torsion were increased in bones subjected to higher loading rates (&#x2009;<&#x2009;0.001). CONCLUSION: &#x2003;Screw-hole defects up to 2.7 mm did not significantly reduce feline bone failure properties in thisfemoral study. These findings support current screw-size selection guidelines of up to 33% bone diameter as appropriate for use in feline fracture osteosynthesis.