Application of phase-contrast imaging with synchrotron radiation hard X-ray in repair of traumatic femoral defect
10.3760/cma.j.issn.1001-8050.2010.10.017
- VernacularTitle:股骨头创伤性缺损模型修复过程的同步辐射硬X线相位衬度成像
- Author:
Wei SUN
;
Zirong LI
;
Zhencai SHI
;
Gang LI
;
Yongping ZHU
;
Zhihua CHEN
;
Lin PAN
;
Yan LI
;
Fuzhai CUI
- Publication Type:Journal Article
- Keywords:
Femur head;
Radiographic image interpretation,computer-assisted;
Synchrotrors
- From:
Chinese Journal of Trauma
2010;26(10):919-922
- CountryChina
- Language:Chinese
-
Abstract:
Objective To compare the effectiveness of nano-hydroxyapatite/collagen (nHAC)and autologous mesenchymal stem cells (AMSCs) for the repair of femoral defect in a rabbit model with femoral defect under the monitoring of the synchrotron radiation hard X-ray. Methods The rabbit models of traumatic bone defect were established and completely randomized into three groups. The femoral defects filled with nothing were used as control group (Group A) , the femoral defects filled with nHAC as Group B and the femoral defects filled with nHAC + AMSCs as Group C. Phase-contrast imaging with synchrotron radiation hard X-ray was applied to detect the degradation and repair process of each group at postoperative weeks 4, 8 and 12, respectively. Results Phase-contrast imaging with synchrotron radiation hard X-ray could display the reparative process. Four weeks after operation, there was collapse in some defect areas in Group A, and the degradation of nHAC and new bone formation were observed in Groups B and C. Eight weeks after operation, fibrous tissues were observed in the defect area in Group A, while osteogenesis and nHAC degradation were more obvious in Groups B and C. Twelve weeks after operation, the defect areas were still unhealed and were substituted by fibrous tissues in Group A, tissue densities of defect areas in Group C were identical with periphery areas, and trabecular bones were formed in Group C. There were statistical differences in the osteogenesis between Group A and Groups B and C,with Group C the best. Conclusion Phase-contrast imaging with synchrotron X-ray can detect the reparative process at a micro-level and plays an important role in the development of tissue engineering.
