| Abstract: | Objective: To compsre the biomechanical differences among the atlantoaxiai transarticular screw fixation (Magerl) and other posterior fixation techniques.
Methods: Seven preserved atlantoaxial-complex specimens were harvested and fixated with Magerl, Magerl plus Gallie wiring, Mageri plus Brooks wiring, pure Brooks, pure Gailie, and Halifax interlaminar clamping fixation, respectively. The torque for every fixation terhnique was measured at the point of five-degree rotation of the atlantoaxial joint.
Results: The torque for Magerl was 6.59 N· m ±1.14 N-m, which was significantly higher than any other pure posterior techniques including Gallie (1.74 N · m ±0.31 N·m). Brooks (4.06 N ·m ± 0.48 N ·m) and Halifax (3.44 N·m ± 0.87 N·m) (P < 0.01), but less than Magerl plus brooks (9.94 N· m ± 1.45 N· m) ( P < 0.01 ). No statistically significant difference was found between Magerl and Magerl plus Gallie wiring (7.61 N·m± 1.10 N·m) or between Brooks and Halifax.
Conclusions: Compared with other pure posterior fixation techniques the atlantoaxial transarticular screw fiuation technique provides more torsion-resistance capacity. It is also suggested that combined Gallie wiring do not add any biomechanical superiority to this technique. |
