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Effects of long-term administration of carprofen on healing of a tibial osteotomy in dogs
- Ochi, Hiroki, Hara, Yasushi, Asou, Yoshinori, Harada, Yasuji, Nezu, Yoshinori, Yogo, Takuya, Shinomiya, Kenichi, Tagawa, Masahiro
- American journal of veterinary research 2011 v.72 no.5 pp. 634-641
- Beagle, bone formation, callus, cartilage, dogs, long term effects, modulus of elasticity, osteotomy, radiography, tibia
- Objective—To evaluate effects of long-term administration of carprofen on healing of a tibial osteotomy in dogs. Animals—12 healthy female Beagles. Procedures—A mid-diaphyseal transverse osteotomy (stabilized with an intramedullary pin) of the right tibia was performed in each dog. The carprofen group (n = 6 dogs) received carprofen (2.2 mg/kg, PO, q 12 h) for 120 days; the control group (6) received no treatment. Bone healing and change in callus area were assessed radiographically over time. Dogs were euthanized 120 days after surgery, and tibiae were evaluated biomechanically and histologically. Results—The osteotomy line was not evident in the control group on radiographs obtained 120 days after surgery. In contrast, the osteotomy line was still evident in the carprofen group. Callus area was significantly less in the carprofen group, compared with the area in the control group, at 20, 30, and 60 days after surgery. At 120 days after surgery, stiffness, elastic modulus, and flexural rigidity in the carprofen group were significantly lower than corresponding values in the control group. Furthermore, histologic evaluation revealed that the cartilage area within the callus in the carprofen group was significantly greater than that in the control group. Conclusions and Clinical Relevance—Long-term administration of carprofen appeared to inhibit bone healing in dogs that underwent tibial osteotomy. We recommend caution for carprofen administration when treating fractures that have delays in healing associated with a reduction in osteogenesis as well as fractures associated with diseases that predispose animals to delays of osseous repair.