A finite element model of the L4–L5 spinal motion segment: biomechanical compatibility of an interspinous device

Authors: Vena, Pasquale¹; Franzoso, Giampaolo¹; Gastaldi, Dario¹; Contro, Roberto¹; Dallolio, Villiam²

Source: Computer Methods in Biomechanics and Biomedical Engineering, Volume 8, Number 1, February, 2005 , pp. 7-16(10)

Publisher: Taylor and Francis Ltd

Abstract:

The biomechanical compatibility of an interspinous device, used for the “dynamic stabilization” of a diseased spinal motion segment, was investigated. The behaviour of an implant made of titanium based alloy (Ti6Al4V) and that of an implant made of a super-elastic alloy (Ni–Ti) have been compared. The assessment of the biomechanical compatibility was achieved by means of the finite element method, in which suitable constitutive laws have been adopted for the annulus fibrosus and for the metal alloys. The model was aimed at simulating the healthy, the nucleotomized and the treated L4–L5 lumbar segment, subjected to compressive force and flexion-extension as well as lateral flexion moments. The computational model has shown that both the implants were able to achieve their main design purpose, which is to diminish the forces acting on the apophyseal joints. Nevertheless, the Ni–Ti implant has shown a more physiological flexural stiffness with respect to the Ti6Al4V implant, which exhibited an excessive stiffness and permanent strains (plastic strains), even under physiological loads. The computational models presented in this paper seems to be a promising tool able to predict the effectiveness of a biomedical device and to select the materials to be used for the implant manufacturing, within an engineering approach to the clinical problem of the spinal diseases.

Keywords: Finite Element Model; Lumbar Spine; Intervertebral Disc; Soft Biological Tissues; Titanium Alloy; Ni–Ti Alloy

Document Type: Research article

DOI: http://dx.doi.org/10.1080/10255840500062914

Affiliations: 1: Laboratory of Biological Structure Mechanics (LaBS), Department of Structural Engineering, Politecnico di Milano, P. Leonardo da Vinci, 32—20133, Milano, Italy 2: Neurosurgery Unit, Hospital Santa Corona, Via XXV Aprile,128—17027 Pietra Ligure (SV), Italy

Publication date: 2005-02-01

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