Biomechanical research on different pairs of lumbar laminectomy with finite element analysis.
- Author:
Jin SU
1
;
Wenzhi ZHAO
;
Bingzhi CHEN
;
Bin LI
;
Shengwei HE
;
Xu FANG
Author Information
1. Department of Orthopedics, Second Affiliated Hospital of Dalian Medical University, Dalian 116023, China.
- Publication Type:Journal Article
- MeSH:
Adult;
Biomechanical Phenomena;
Computer Simulation;
Finite Element Analysis;
Humans;
Laminectomy;
methods;
Lumbar Vertebrae;
diagnostic imaging;
surgery;
Male;
Models, Biological;
Spinal Stenosis;
diagnostic imaging;
surgery;
Tomography, Spiral Computed
- From:
Journal of Biomedical Engineering
2012;29(3):465-469
- CountryChina
- Language:Chinese
-
Abstract:
The finite element model of the intact lumbar spine (L1-L5) was set up to study the biomechanical changes of three different pairs of the lumbar laminectomy. The three-dimensional finite elements model of L1-L5 vertebrae structure was constructed by the combination of self-compiled software and Hyper Mesh. The finite element model was compared with the experimental data in vitro. The finite element model was modified of stenosis at L3-L4 and L4-L5 with the same boundary conditions and physical loads to study the motion and loading in the annulus changes at the surgical site as a result of surgical alteration. The study suggested that the removal of posterior lumbar spinal elements for the treatment of stenosis at L3-L4 and L4-L5 produced a graded increase in motion at the surgical site, with the greatest changes occurring in flexion-extension and axial rotation and that during lateral bending the amount of resection was only slightly affected. The data showed that for flexion-extension and axial rotation the increases in motion were correlated to the extent of posterior element removal. It is necessary to retain the greatest degree of posterior lumbar structures in thorough decompression, which can further reduce the postoperative intervertebral disc, facet degeneration.
