Biomechanical Comparison Between Bicortical Pin and Monocortical Screw/Polymethylmethacrylate Constructs in the Cadaveric Canine Cervical Vertebral Column

Objective To compare biomechanical stiffness of cadaveric canine cervical spine constructs stabilized with bicortical stainless steel pins and polymethylmethacrylate (PMMA), monocortical stainless steel screws with PMMA, or monocortical titanium screws with PMMA. Study Design Biomechanical cadaver study. Animals Eighteen canine cervical vertebral columns (C2–C7) were collected from skeletally mature dogs (weighing 22–32 kg). Methods Specimens were radiographed and examined by dual energy X‐ray absorptiometry. Stiffness of the unaltered C4–C5 intervertebral motion unit was measured in extension, flexion and lateral bending using non‐destructive 4‐point bend testing. Specimens were then stabilized by (1) bicortical stainless steel pins/PMMA, (2) monocortical stainless steel screws/PMMA, or (3) monocortical titanium screws/PMMA. Mechanical testing was repeated and stiffness data from unaltered specimens and the 3 treatment groups were compared. Results All 3 surgical methods significantly increased stiffness of the C4–C5 motion unit compared with the unaltered specimen ( P  < .001 for all treatments), but stiffness was not significantly different among the 3 fixation groups ( P  = .578). Conclusions In this model, monocortical screw fixation (with stainless steel or titanium screws) was biomechanically equivalent to bicortical fixation.