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Journal Article

Citation

Banerjee T, Majumder S, Chakraborty JK. Int. J. Veh. Safety 2008; 3(2): 182-193.

Copyright

(Copyright © 2008, Inderscience Publishers)

DOI

10.1504/IJVS.2008.022217

PMID

unavailable

Abstract

The lumbar inter-vertebral joint (L4-L5) performs a very important role in transferring load from the upper portion of the body to the lower part, especially during bending activities. Failure such as bone fracture, tissue damage, disc rupture, etc. occurs very often in this region. Stress distribution patterns are very useful for evaluation of such failure. A three-dimensional finite element model of lumbar vertebral joint (L4-L5) along with an intervertebral disc was created. The geometry was based on standard literature and compared physically. For meshing cortical bone, 8-noded shell elements were used and 10-noded tetrahedra were used for meshing cancellous bone and intervertebral disc. The finite element model contained different isotropic material properties for different regions. The finite element model contained 105,876 elements, connected through 136,974 nodes. Stress analyses were done for different loading conditions such as axial compression of 2,000 N, bending moments for flexion with magnitudes of 5, 10, 15 and 20 Nm and lifting weight in hand with varying magnitude (20-80% of the body weight) and inclination (15°-90°) of the body with the vertical axis (0° for vertical body and 90° for horizontal body). The results were compared with previous similar type of studies, carried out by different researchers. This finite element model may be useful in clinical application for fracture assessment and spinal instrumentation.

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