DUAN Yang 1 , JIN Anmin 1 , ZHANG Hui 1 , MIN Shaoxiong 1 , HU Konghe 2
  • 1Department of Orthopaedics, Zhujiang Hospital, Southern Medical University, Guangzhou Guangdong, 510282, P.R.China;;
  • 2Department of Orthopaedics, Yuebei People’s Hospital, Shantou University.;
Lower cervical spine; Three-column injury Internal fixation; Finite element model; Stress distribution
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Objective To establ ish sophisticated three-dimensional finite element model of the lower cervical spine and reconstruct lower cervical model by different fixation systems after three-column injury, and to research the stress distribution of the internal fixation reconstructed by different techniques. Methods The CT scan deta were obtained from a 27-year-old normal male volunteer. Mimics 10.01, Geomagic Studio10.0, HyperMesh10.0, and Abaqus 6.9.1 softwares were used
to obtain the intact model (C3-7), the model after three-column injury, and the models of reconstructing the lower cervical spine after three-column injury through different fixation systems, namely lateral mass screw fixation (LSF) and transarticular screw fixation (TSF). The skull load of 75 N and torsion preload of 1.0 N•m were simulated on the surface of C3. Under conditions of flexion, extension, lateral bending, and rotation, the Von Mises stress distribution regularity of internal fixation system was evaluated. Results The intact model of C3-7 was successfully establ ished, which consisted of 177 944 elements and 35 668 nodes. The results of the biomechanic study agreed well with the available cadaveric experimental data, suggesting that they were accord with normal human body parameters and could be used in the experimental research. The finite element models of the lower cervical spine reconstruction after three-column injury were establ ished. The stress concentrated on the connection between rod and screw in LSF and on the middle part of screw in TSF. The peak values of Von Mises stress in TSF were higher than those in LSF under all conditions. Conclusion For the reconstruction of lower cervical spine, TSF has higher risk of screw breakage than LSF.

Citation: DUAN Yang,JIN Anmin,ZHANG Hui,MIN Shaoxiong,HU Konghe. THREE-DIMENSIONAL FINITE ELEMENT INVESTIGATION OF LATERAL MASS SCREW FIXATION AND TRANSARTICULAR SCREW FIXATION IN LOWER CERVICAL SPINE. Chinese Journal of Reparative and Reconstructive Surgery, 2010, 24(12): 1494-1499. doi: Copy