Defects and necrosis of canine femoral head repaired with tissue engineering bone
- VernacularTitle:bFGF/BMP/AACB复合物修复犬股骨头缺损坏死模型的实验研究
- Author:
Yuekun GONG
;
Wuxun PENG
;
Biao LI
- Publication Type:Journal Article
- Keywords:
Avascular necrosis of the femoral head(ANFH);
Basic fibroblast growth factor(bFGF);
Bone morphogenetic protein(BMP);
Allogeneic antigen-extrac ted cancellous bone(AACB)
- From:
Chinese Journal of Orthopaedic Trauma
2002;0(03):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To evaluate a new type of bone graft material made by combining bFGF,BMP with AACB in the clinic repair of ANFH(avascular necrosis of the femoral head)in animal experiments.Methods The combined material of bFGF/BMP/AACB was made and then this composite was transplanted to the models of canine femoral head defects and necrosis established by liquid nitrogen freezing,The specimens were harvested respectively at the end of three,six and 12 weeks after operation.A series of examinations were carried out to evaluate the repair results,including gross observation,radiography,histology,image pattern analy sis,blood vessel immuhistochemical staining,EDAX(energy dispersion analysis X-ray),and mechanical measurement.Results All the animals had no toxic or inflammatory reactions.Little new bone formed in group A(control group)by the end of 12 weeks.Group B(AACB group)was better than group A,and group C(BMP/AACB group)better than group B in osteogenesis.All the results showed that group D(bFGF/BMP/AACB group)was much superior to groups A,B and C in angiogenesis and osteogenesis at all intervals,and even better than group E(bone autograft group)by the end of three weeks and six weeks.By the end of 12 weeks,bone repairing and remodeling effects in group D were as good as in group E.Conclusions Since the bFGF/BMP/AACB compsite has great potential for enhacing revascularization and osteogenesis in repairing the defect and necrosis model of canine femoral head,it can be used as a substitute bone graft material for clinical patients with ANFH.
