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APOPTOSIS IS INVOLVED IN BONE REGENERATION DURING DISTRACTION OSTEOGENESIS



Abstract

During the process of distraction osteogenesis new bone is formed rapidly and undergoes remodelling almost immediately. Little is known about the regulatory mechanisms governing the removal of the redundant callus in this process. Tissue homeostasis is achieved by a delicate balance between the processes of cell death (apoptosis) and cell proliferation. The aim of this study was to test the hypothesis that apoptosis is involved during distraction osteogenesis.

Mid-tibial osteotomies were performed in 6 adult male NZW rabbits (age; 24 weeks, weight; 3.0 −3.5 kg), and the tibiae stabilised with unilateral external fixators (Orthofix M-100). 7 days later, twice daily distraction was initiated at rates of 0.7 mm/day for 3 weeks. BrdUrd (40mg/kg) was injected intravenously to the rabbit 1h before killing. The regenerate bone was collected, fixed in 10% buffered formalin and decalcified for paraffin embedding. Some fresh regenerate bone tissues were also prepared for examination under transmission electronic microscopy (TEM). BrdUrd immunohistochemistry has been used to detect proliferating cells and the terminal deoxynucleotidyl transferase (TDT)-mediated dUTP-biotin nick end-labelling (TUNEL) method was used to identify cells undergoing apoptosis. To detect bone-resorbing cells, tartrate-resistant acid phosphatase (TRAP) staining was also performed.

BrdUrd positive cells and TUNEL-positive cells were shown to coexist in most of the areas in the regenerates. In the mineralisation front, the majority of the TUNEL-positive cells were present in the transitional region between the fibrous tissue and the new bone. The TUNEL-positive cells were close to or on bone surfaces, and some of the newly formed osteocytes in the new trabeculae were also positive. The TUNEL-positive cells were also seen in the cartilage region of the regenerate. However, the TUNEL labelling was greatly reduced in the new bone close to the osteotomised bone ends, TUNEL-positive labelling were not detected in the cortical bone of the osteotomised bone ends and in the adjacent surrounding periosteum. TRAP staining in the regenerate revealed similar patterns of distribution to those of the TUNEL staining. There were more TRAP-positive cells in the new bone near the mineralisation front than in that of the new bone region, which was close to the osteotomised bone ends. TEM examinations have demonstrated characteristic signs of apoptotic changes in the fibroblast, osteoblast and osteocytes in the specific regions of the distraction regenerate.

The study provided evidence that in the process of rapid bone formation during distraction osteogenesis, superfluous cells are removed by apoptotic mechanisms. The demonstration of a mixture of proliferative and apoptotic cell populations in the regenerating tissue, indicates that apoptosis and cell proliferation may be regulated by local factors. The neovascularisation of the regenerate and withdrawal of growth factors and cytokines may be responsible for apoptosis occurring in some parts of the regenerating tissue. The changes of distribution of apoptotic cells in the different regions of the regenerate, together with the observed patterns of osteoclast activities, suggest that bone cells undergoing apoptosis may initiate rapid bone remodelling seen during distraction osteogenesis.

Abstracts prepared by Dr P E Watkins, Hodgkin Building, Guys Campus, King’s College London.