Abstract
Aim: To examine the effect of the bisphosphonate zoledronic acid in doses of 0.1mg/kg on new bone formation and stress shielding in a distraction-osteogenesis model in New Zealand white rabbits.
Method: Thirty male rabbits underwent a right tibial osteotomy at eight weeks of age. Distraction of the osteotomy by 0.75mm/day was performed for two weeks followed by four weeks for consolidation. Group I was given saline infusions, Group II zoledronic acid at surgery, and Group III received zoledronic acid at surgery and again at two weeks. DXA scans evaluated BMC and BMD. Quantitative computerised tomography measured the cross-sectional areas. Four-point bend testing of both distracted and non-operated tibiae was performed in a standardised fashion.
Results: Bone mineral accretion between two and four weeks was significantly higher in treated versus saline groups, and was better maintained at six weeks (P< 0.01 ANOVA). Stress shielding osteopaenia that was seen in surrounding bone segments in Group I (controls) was abolished in the treated groups. By six weeks there was a 49% and 59% increase in cross sectional area of new bone in Groups II and III respectively (P< 0.01 ANOVA). Group II tibiae were 29% stronger in four-point bending, while Group III were 89% stronger than Group I (P< 0.01 ANOVA). There was little detectable effect on the non-operated tibiae.
Conclusions: Zoledronic acid administration significantly increased the rate and amount of new bone formation and its mineralisation. The increases in bone formation and retention translated to a significant, dose-dependent increase in strength. Further research into the role of zoledronic acid in orthopaedic surgery is indicated.
The abstracts were prepared by Professor A. J. Thurston. Correspondence should be addressed to him at the Department of Surgery, Wellington School of Medicine, PO Box 7343, Wellington South, New Zealand
