Anisotropic and inhomogeneous tensile behavior of the human anulus fibrosus: experimental measurement and material model predictions

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Elliott, Dawn M.¹; Setton, Lori A.²

Anisotropic and inhomogeneous tensile behavior of the human anulus fibrosus: experimental measurement and material model predictions

J Biomech Eng. June 2001;123(3):256-263

©2001 ASME

Affiliations

¹Orthopaedic Research Laboratory, Department of Orthopaedic Surgery, Department of Bioengineering, University of Pennsylvania, Philadelphia, PA 19104

²Department of Biomedical Engineering, Department of Surgery, Division of Orthopaedic Surgery, Duke University, Durham, NC 27708
Abstract

The anulus fibrosus (AF) of the intervertebral disc exhibits spatial variations in structure and composition that give rise to both anisotropy and inhomogeneity in its material behaviors in tension. In this study, the tensile moduli and Poisson’s ratios were measured in samples of human AF along circumferential, axial, and radial directions at inner and outer sites. There was evidence of significant inhomogeneity in the linear-region circumferential tensile modulus (17.4±14.3 MPa versus 5.6±4.7 MPa, outer versus inner sites) and the Poisson’s ratio ν₂₁ (0.67±0.22 versus 1.6±0.7, outer versus inner), but not in the axial modulus (0.8±0.9 MPa) or the Poisson’s ratios ν1₁₂ (1.8±1.4) or ν₁₃ (0.6±0.7). These properties were implemented in a linear anisotropic material model of the AF to determine a complete set of model properties and to predict material behaviors for the AF under idealized kinematic states. These predictions demonstrate that interactions between fiber populations in the multilamellae AF significantly contribute to the material behavior, suggesting that a model for the AF as concentric and physically isolated lamellae may not be appropriate.
Links

DOI: 10.1115/1.1374202

PubMed: 11476369

WoS: 000169878700008
History

Received: 1999-12-27

Revised: 2000-12-21

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