OBJECTIVE: To investigate the repairing result for the massive bony defects of upper and middle tibia and lower femur. METHODS: Since 1974, four types of pedicled-fibula transposition were performed to repair the massive bone defect of tibia and femur in 25 cases, which included; 9 cases with benign tumor of upper part of tibia were performed muscle-pedicled fibula transposition and knee fusion after tumor resection; 9 cases with extensive benign tumor or tumoroid lesion of tibia shaft were performed muscle-pedicled fibula transposition and tibia-fibula fusion after tumor resection; 2 cases with extensive benign tumor or tumoroid lesion of middle and lower parts of tibia were performed vascular pedicled fibula transposition and tibia-fibula fusion; 5 cases with benign tumor of distal femur were performed vascular pedicled fibula reversal transposition and knee fusion. RESULTS: After 3 months to 11 years follow-up, 23 cases showed bone healing at 6 months postoperatively. The other 2 cases showed bone healing at 12 months postoperatively. All cases had satisfactory functional rehabilitation. CONCLUSION: Pedicled-fibula transposition is a choice method for repairing massive defects of tibia and femur.
Objective To study the vascularization of the compositeof bio-derived bone and marrow stromal stem cells(MSCs) in repairing goat tibial shaft defect.Methods Bio-derived bone was processed as scaffold material. MSCs were harvested and cultured in vitro. The multiplied and induced cells were seeded onto the scaffold to construct tissue engineered bone. A 20 mm segmental bone defect inlength was made in the middle of the tibia shaft in 20 mature goats and fixed with plate. The right tibia defect was repaired by tissue engineered bone (experimental side), and the left one was repaired by scaffold material (control side).The vascularization and osteogenesis of the implants were evaluated by transparent thick slide, image analysis of the vessels, and histology with Chinese ink perfusion 2, 4, 6, and 8 weeks after operation.Results More new vessels were found in control side than in experimental side 2 and 4 weeks after implantation (Plt;0.05). After 8 weeks, there was no significant difference in number of vessels between two sides(Pgt;0.05), and the implants were vascularized completely. New bone tissue was formed gradually as the time and the scaffold material degraded quickly after 6 and 8 weeks in the experimental side. However, no new bone tissue was formed andthe scaffold degraded slowly in control side 8 weeks after operation.Conclusion Bio-derived bone has good quality of vascularization. The ability of tissue-engineered bone to repair bone defect is better than that of bio-derived bone alone.