Cellularity of human annulus tissue: an investigation into the cellularity of tissue of different pathologies

Aims:  To investigate the cells of the inner annulus and to demonstrate that differences in disc pathology can be identified at the cellular level. Methods and results:  Annulus tissue taken from scoliotic, degenerate and prolapsed human disc tissue was processed for histology and transmission elect...

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Bibliographic Details
Published in:Histopathology 2002-12, Vol.41 (6), p.531-537
Main Authors: Ford, J L, Jones, P, Downes, S
Format: Article
Language:English
Subjects:
Adolescent
Adult
annulus fibrosus
Biological and medical sciences
cell
Diseases of the osteoarticular system
Diseases of the spine
human tissue
Humans
Immunohistochemistry
intervertebral disc
Intervertebral Disc - metabolism
Intervertebral Disc - pathology
Intervertebral Disc - ultrastructure
Intervertebral Disc Displacement - pathology
Ki-67 Antigen - metabolism
Lumbosacral Region - pathology
Medical sciences
Microscopy, Electron
Middle Aged
pathology
Receptors, Cell Surface - metabolism
Receptors, Urokinase Plasminogen Activator
Scoliosis - pathology
Spinal Diseases - pathology
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Summary:Aims:  To investigate the cells of the inner annulus and to demonstrate that differences in disc pathology can be identified at the cellular level. Methods and results:  Annulus tissue taken from scoliotic, degenerate and prolapsed human disc tissue was processed for histology and transmission electron microscopy. Ki67 antibody was used to identify cells in the active part of the cell cycle and cell surface receptors for the matrix‐degrading enzyme urokinase were immunolocalized. More chondron clusters were observed in tissue from prolapsed discs than in degenerate and scoliotic discs. Positive Ki67 staining was detected in cells within chondron clusters. Most cells observed from scoliotic and prolapsed annulus contained distinctive nuclei and organelles, whereas cells from degenerate discs contained very few well‐defined organelles but abundant glycogen deposits. Immunolocalization identified urokinase receptors on the surface of cells from degenerate discs but not in the other pathologies. Conclusions:  Cellular differences appear to underlie different types of disc pathology. The annulus tissue taken from prolapsed discs appeared to contain more chondron clusters and more active cells than scoliotic and degenerative tissue, suggesting a possible wound repair response. In contrast, cell and matrix degeneration appeared to be the most significant underlying processes in degenerate discs.
ISSN:0309-0167
1365-2559
DOI:10.1046/j.1365-2559.2002.01520.x