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- Masni-Azian Division of Biomechanical Engineering, Department of Mechanical Science and Bioengineering, Graduate School of Engineering Science, Osaka University, Japan; Department of Design Manufacturing, Facul and Masao Tanaka.
- Division of Biomechanical Engineering, Department of Mechanical Science and Bioengineering, Graduate School of Engineering Science, Osaka University, Japan; Department of Design Manufacturing, Faculty of Manufacturing Engineering, Universiti Teknikal Malaysia Melaka, Malaysia. Electronic address: masni.azian@utem.edu.my.
- Comput. Biol. Med. 2018 Jul 1; 98: 26-38.
AbstractIntervertebral disc degeneration involves changes in its material properties that affect the mechanical functions of the spinal system. However, the alteration of the biomechanics of a spinal segment through specific material degradation in a specific region is poorly understood. In this study, the influence of the constitutive material degeneration of disc tissues on the mechanics of a lower lumbar spinal unit was examined using a three-dimensional nonlinear finite element model of the L4-L5 functional spinal unit. Different grades of disc degeneration were simulated by introducing a degeneration factor to the corresponding material properties to represent fibrous nucleus, increased fibre and ground substance laxity, increased fibre stiffness and total annular fracture along posterior and posterolateral regions. The model was loaded with an axial compression of 500 N and pure moments of up to 10 Nm to simulate extension, flexion, lateral bending and axial rotation. To validate the model, the spinal motion and intradiscal pressure of healthy and degenerated discs with existing in vitro data were compared. The disc with a fibrous nucleus and the presence of intradiscal pressure increase the spinal instability during flexion and axial rotation, and the absence of intradiscal pressure increases the spinal instability in all directions. Bulging displacement and shear strains in the disc with total fracture and ground substance laxity are high in all of the loading cases. Our study could provide useful information to enhance our understanding of the influence of each constitutive component of the intervertebral disc on the mechanics of the spinal segment.Copyright © 2018 Elsevier Ltd. All rights reserved.
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