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Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXVII | Pages 49 - 49
1 Jun 2012
Grivas TB Vasiliadis ES Khaldi L Kaspiris A Kletsas D
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Introduction. The response of the intervertebral disc to asymmetric forces may accelerate degeneration through changes in the matrix. Macroscopically, the disc sustains structural changes that may play a part in the progression of a scoliotic curve. Molecularly, disc degeneration is the outcome of the action of matrix metalloproteases (MMPs), members of a family of enzymes that bring about the degradation of extracellular matrix components. In this study we measured in vivo the expression of MMPs in a rat scoliotic intervertebral disc and studied the effect of the degree of the deformity on their production. Methods. Asymmetric forces were applied in the intervertebral disc between the ninth and tenth vertebrae at the base of a rat tail with the use of a mini Ilizarov external fixator, under anaesthesia. Animals were categorised into three groups according to the degree of the deformity. In group I, the deformity that was applied on the intervertebral disc was 10°, in group II 30°, and in group III 50°. All the animals used were female Wistar rats before adulthood, to take into account the effect of growth for the study of intervertebral disc changes. The intact intervertebral discs outside the fixator were used as controls. After the rats' death on day 35, the tails were prepared and analysed with an immunohistochemical protocol for chromogenic detection and location of MMPs 1 and 12 in tissue sections of the intervertebral discs. Results. We recorded an increase of the concentration of the MMPs in all groups compared with controls. The quantity of the MMPs increased as the degree of the deformity progressed. MMPs were detected mainly in fibrocartilage cells of the degenerative part, which were formed as result of the compression forces. We detected a differentiation of a large number of disc cells into chondrocytes at the transitional zone of the intervertebral disc adjacent to the vertebral end plates. Conclusions. The application of asymmetric forces on the intervertebral discs of a rat tail results in an increase of MMP expression in the disc cells. The amount of MMPs produced is proportional to the degree of the deformity and has an asymmetrical pattern of distribution into the intervertebral disc