Title of article
Simulated influence of osteoporosis and disc degeneration on the load transfer in a lumbar functional spinal unit
Author/Authors
Anne Polikeit، نويسنده , , Lutz P. Nolte، نويسنده , , S.J.Stephen J. Ferguson، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
9
From page
1061
To page
1069
Abstract
As life expectancy increases, age-related disorders and the search for related medical care will expand. Osteoporosis is the most frequent skeletal disease in this context with the highest fracture risk existing for vertebrae. The aging process is accompanied by systemic changes, with the earliest degeneration occurring in the intervertebral discs. The influence of various degrees of disc degeneration on the load transfer was examined using the finite element method. The effect of different possible alterations of the bone quality due to osteoporosis was simulated by adjusting the corresponding material properties and their distribution and several loadings were applied. An alteration of the load transfer, characterised by changed compression stiffness and strain distributions as well as magnitudes, due to osteoporotic bone and degenerated discs was found. When osteoporosis was simulated, the stiffness was substantially decreased, larger areas of the cancellous bone were subjected to higher strains and strain maxima were increased. Increasing ratios of transverse isotropy in the osteoporotic bone yielded smaller effects than reduced bone properties. Including a degenerated disc mainly altered the strain distribution. Combining osteoporosis and degenerated discs reduced the areas of cancellous bone subjected to substantial strain. Based on these results, it can be concluded that the definition of a healthy disc in osteoporotic spines might be considered as a worst-case scenario. One attempt to evaluate the progress of osteoporosis can be made by introducing increasing degrees of anisotropy. If several parameters in a model are changed to simulate degeneration, it should be pointed out how each individual definition influences the overall result.
Keywords
osteoporosis , Finite element analysis , Lumbar spine , Disc degeneration , Strain distribution
Journal title
Journal of Biomechanics
Serial Year
2004
Journal title
Journal of Biomechanics
Record number
451796
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