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Los Angeles, CA
March 31, 2009 to April 2, 2009
ISBN: 978-0-7695-3507-4
pp: 357-361
ABSTRACT
The aim of this work is to understand the biomechanical behaviors of vertebra, intervertebral disc, ligament and facet joint. In view of biomechanics, the spinal motion segments are porous and solid-fluid interactive tissue structures and swelling pressure may be produced as a result in the intervertebral disc when under loading. The relationships of loading and displacement almost were linear in previous literature. However, published experimental data revealed that the response of large loadings corresponded closely with geometrical nonlinearity. A rather fine and efficient poroelastic finite element model of spinal motion segments is constructed for the purpose of simulating the complicated porous tissue structures/geometry of human lumbar spine. The FEM includes complicated L4/L5 porous tissue structures, nucleus pulpous, annulus fiber, seven nonlinear ligaments and non-thickness contact elements that were developed to simulate the compressive behavior of facet joints. The analytical process also offers an additional method with the approach from geometrical nonlinearity.
CITATION
James Shih-Shyn Wu, Hsiao-Che Lin, Jian-Horng Chen, "Geometrical Nonlinear Analysis of the Spinal Motion Segments by Poroelastic Finite Element Method", CSIE, 2009, 2009 WRI World Congress on Computer Science and Information Engineering, CSIE, 2009 WRI World Congress on Computer Science and Information Engineering, CSIE 2009, pp. 357-361, doi:10.1109/CSIE.2009.1097
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