Biomechanical study of the atlantoaxial joint after artificial atlanto-odontoid joint arthroplasty

Abstract

ObjectiveTo investigate the stability and three-dimensional movements of the atlantoaxial joint after artificial atlanto-odontoid joint (AAOJ) arthroplasty by comparing with a conventional method. MethodsAfter anterior decompression, 24 human cadaveric spinal specimens of C0-C3 were randomly divided into two groups: Group A receiving artificial AAOJ arthroplasty; Group B experiencing anterior transarticular screw (ATAS) fixation. Two groups underwent flexibility test in intact and instrumented states. Rotational angle of the C0-C3 segments was measured to study the immediate stability and function of anterior decompression with AAOJ arthroplasty compared with the intact state and ATAS fixation. ResultsCompared with the intact state, anterior decompression with AAOJ arthroplasty resulted in a significant decrease in the range of motion (ROM) and neutral zone (NZ) during flexion, extension and lateral bending (P<0.05); however, with regard to axial rotation, there was no significant difference in ROM and NZ (P>0.05). Compared with anterior decompression with ATAS fixation, anterior decompression with AAOJ arthroplasty during flexion, extension and lateral bending, significant difference was found in ROM and NZ (P>0.05); however, as for axial rotation, there was a significant increase in ROM and NZ (P<0.05). ConclusionThe self-designed AAOJ has an excellent biomechanical performance, which can restore excellent instant stability and preserve the movement of the atlanto-axialjoint.