Effect of untreated degenerated disc on adjacent discs
Single-Level Degenerative Disc - Adjacent Segments FEA: J.Biomechanics 2009 Jan Epub
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Journal of Biomechanics
Article in Press
Copyright © 2008 Elsevier Ltd All rights reserved.
Influence of single-level lumbar degenerative disc disease on the behavior of the adjacent segments—A finite element model study
Lissette M. Ruberté a, Raghu N. Natarajan a, b, and Gunnar BJ. Andersson b
a Department of Bioengineering, University of Illinois at Chicago, USA
b Department of Orthopedic Surgery, Rush University Medical Center, USA
Accepted 23 November 2008. Available online 10 January 2009.
Abstract
The current study investigated mechanical predictors for the development of adjacent disc degeneration. A 3-D finite element model of a lumbar spine was modified to simulate two grades of degeneration at the L4–L5 disc. Degeneration was modeled by changes in geometry and material properties. All models were subjected to follower preloads of 800 N and moment loads in the three principal directions of motion using a hybrid protocol.
Degeneration caused changes in the loading and motion patterns of the segments above and below the degenerated disc.
At the level (L3–L4) above the degenerated disc, the motion increased due to moderate degeneration by 21% under lateral bending, 26% under axial rotation and 28% under flexion/extension. At the level (L5-S1) below the degenerated disc, motion increased only during lateral bending by 20% due to moderate degeneration. Both the L3–L4 and L5-S1 segment showed a monotonic increase in both the maximum von Mises stress and shear stress in the annulus as degeneration progressed for all loading directions, expect extension at L3–L4. The most significant increase in stress was observed at the L5-S1 level during axial rotation with nearly a ten-fold increase in the maximum shear stress and 103% increase in the maximum von Mises stress. The L5-S1 segment also showed a progressive increase in facet contact force for all loading directions with degeneration. Nucleus pressure did not increase significantly for any loading direction at either the caudal or cephalic adjacent segment.
Results suggest that single-level degeneration can increase the risk for injury at the adjacent levels.
Keywords: Disc degeneration; Finite element; Lumbar; Spine
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04/06 L5/S1 Rupture
05/06 MRI shows DDD @ L2-S1
06/06 Diskectomy/ Laminotomy L5/S1
04/07 Recurrent Disc Surgery L5/S1
3 Ortho and 1 Neuro Surgeon, 3 MRIs, 1 EGM, 1 Myleogram & 11 EDIs later:
03/27/09 Maverick ADR at L4/L5 & L5/S1
03/27/09 The Lord and Dr. Ritter-Lang returned my life to me.
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