An in vivo experimental implantation of four kinds of treated prosthetic surface
- VernacularTitle:假体四种表面处理的体内植入实验
- Author:
Mingwei MU
;
Xin ZHANG
;
Xinxiang XU
- Publication Type:Journal Article
- Keywords:
Prostheses and implants;
Bone morphogenetic proteins;
Histology, comparative
- From:
Chinese Journal of Orthopaedics
2001;0(03):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To promote the clinical practice of bone morphogenetic proteins (BMP) coated prosthesis in order to improve its biological fixation. Methods There were 12 healthy mongrels, weighted from 20 to 25 kg. They were randomly divided into 3 groups according to the scarified time. The bilateral femurs were adopted as the graft areas, and 4 kinds of implant were transplanted into each femur randomly. The transplant consisted of porous-coated anatomic(PCA group), PCA combined with BMP (BMP group), PCA combined with hydroxyapatite(Composite group), and polish PCA combined with HA (HA group). The femurs of the mongrels were retrieved at the 4th, 8th and 12th week respectively. Bone ingrowth and shear strength between the interfaces of the bone-implant were studied, using X-ray, soft X-ray, fluorescence tag, non-decalcification ground section, computer-aided image analysis, and histological examinations. Results By gross observation, the composite for the group of PCA with BMP was the most stable in all the experimental groups. All implants showed good histocompatibility, the bone ingrowth on the implant surface appeared earlier in the BMP group than any others, and so did the maturation of new bone. At 4th week, the percent of new bone formation in the BMP group was 26.58%?4.56%, which was also much higher than PCA group (18.28%?2.46%), Composite group (17.23%?2.11%), and HA group(16.89%?3.13%) through the means of non-decalcified ground section and computer aided image analysis, and the difference was of statistical significance(P0.05). Conclusion The composite of BMP to the PCA is effective and feasible procedure, which could increase biological fixation of the interfaces between the bone and implant. Furthermore, HA coating is also an effective method of prosthesis surface treatment in order to improve bone ingrowth and enhance the interface shear strength, and the technique of HA coating is an essential factor in processing the prosthesis.
