• F Unglaub, T Guehring, G Omlor, H Lorenz, C Carstens, and M W Kroeber.
• Vulpiusklinik, Orthopädische Klinik, Handchirurgie, Bad Rappenau.
• Z Orthop Ihre Grenzgeb. 2006 Jan 1; 144 (1): 68-73.

AimThe aim of this study was to investigate the effects of temporary distraction on a degenerated intervertebral disc to characterize regenerative changes associated with disc distraction.MethodNew Zealand white rabbits (n = 32) were used for this experimental animal study. The rabbits were randomly assigned to one of five groups. 6 animals were loaded for 28 days using a custom-made external loading device to stimulate disc degeneration (G2). In 6 animals the discs were first loaded for 28 days and after 28 days loading time the discs in six animals were treated as dynamic distraction with an external distraction device (G1). In six animals the discs were distracted for 28 days without previous loading (G5) and in six animals the discs were loaded for 28 days and afterwards the loading device was removed for 28 days for recovery without distraction (G3). Six animals were sham operated (G4) without application of axial load. After 28 to 56 days loading and distraction time, the animals were sacrificed and the lumbar spine was harvested for histological and radiographic analysis. Histology was performed according to a degeneration score and disc height was calculated radiographically. For the cell viability examination, the number of apoptotic cells was determined.ResultsAfter 28 days of loading (G2), the discs showed a significant decrease in disc space of the treated segment. Histologically, a disorganization of the architecture of the annulus occurred. The number of dead cells increased significantly in the annulus and cartilage endplate. These changes were reversible after 28 days of distraction (G1). The disc thickness increased significantly to physiological levels as compared to the specimens from the 28 days loading group without distraction. Histologically, the discs showed signs of tissue regeneration after 28 days of distraction (G1). The number of apoptotic cells decreased significantly in comparison to the loaded discs without distraction (G2).ConclusionThe results of this study suggest that disc regeneration can be induced by axial dynamic distraction in the moderately degenerated rabbit intervertebral disc. The decompressed rabbit intervertebral discs showed signs of tissue recovery at the cellular and histological levels after temporary disc distraction.

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