In vitro biomechanical comparison of 3.5 mm LC-DCP/intramedullary rod and 5 mm clamp-rod internal fixator (CRIF)/intramedullary rod fixation in a canine femoral gap model.

Abstract

OBJECTIVE: To compare the biomechanical properties of clamp rod internal fixation (CRIF)/rod and LC-DCP/rod constructs in a canine femoral gap model. STUDY DESIGN: Cadaveric biomechanical study. SAMPLE POPULATION: Canine femora (n&#x2009;=&#x2009;10 pair). METHODS: Femora with 40&#x2009;mm ostectomies were assigned to LC-DCP/rod or CRIF/rod treatment groups. Five construct pairs had 4-point bending and 5 pairs had torsional loading. Construct stiffness, strength, and bending angle at failure or permanent angular deformation (torsional loading) were determined. Statistical comparisons were performed using Student t tests; significance was set at P&#x2009;&#x2264;&#x2009;.05. RESULTS: There was significantly greater permanent angular deformation, or residual twist, in the CRIF/rod constructs (23.1&#x2009;&#xb1;&#x2009;0.89&#xb0;) compared with LC-DCP/rod constructs (7.47&#x2009;&#xb1;&#x2009;2.08&#xb0;). Whereas there was no significant difference in torsional stiffness of these constructs at torsional loads <4.92&#x2009;N&#x2009;m (P&#x2009;=&#x2009;.819), LC-DCP/rod constructs had significantly greater torsional stiffness (0.303&#x2009;&#xb1;&#x2009;0.079&#x2009;N&#x2009;m/&#xb0;) and strength (11.546&#x2009;&#xb1;&#x2009;2.79&#x2009;N&#x2009;m) than CRIF/rod construct stiffness (0.06&#x2009;&#xb1;&#x2009;0.013&#x2009;N&#x2009;m/&#xb0;) and strength (6.078&#x2009;&#xb1;&#x2009;0.527&#x2009;N&#x2009;m) at torsional loads >4.92&#x2009;N&#x2009;m. Differences in stiffness and strength in 4-point bending were not statistically significant. CONCLUSIONS: LC-DCP/rod constructs had significantly less permanent angular deformation than CRIF/rod constructs. CRIF/rod constructs became less stiff as torsional load was increased, thus the LC-DCP/rod constructs had significantly greater torsional stiffness and strength under high torsional loads. LC-DCP/rod and CRIF/rod constructs performed similarly under 4-point bend loading conditions.