Healing response of a tissue engineered bone of bMSCs combined rFN/CDH-BCP in a rabbit model:a functional study in vivo
10.11659/jjssx.1672-5042.201306002
- VernacularTitle:rFN/CDH-BCP组织工程骨的制备和体内融合效应的初步研究
- Author:
Qiang XIANG
;
Xiang CUI
;
Jiaxu WANG
;
Minghua LIU
- Publication Type:Journal Article
- Keywords:
tissue engineered bone;
mesenchymal stem cell;
lumbar fusion;
bone repair
- From:
Journal of Regional Anatomy and Operative Surgery
2013;(6):583-587
- CountryChina
- Language:Chinese
-
Abstract:
Objective To study the healing response of a tissue engineered bone of bMSCs combined rFN/CDH-BCP in a rabbit model. Methods The biomimetic surface was achieved by immobilizing rFN/CDH onto biphasic calcium phosphate ceramic ( BCP) covalently. The effect of rFN/CDH-BCP on adhesion,proliferation and differentiation were evaluated comprehensively by using cell centrifugal adhesive as-say,MTT method,SEM,Alkaline phosphatase ( ALP) activity and alizarin red staining respectively. A rabbit lumbar fusion model was estab-lished by implanting bMSCs combined rFN/CDH-BCP into intertransverse process space of L4 ~L5 ,the fusion site bone formation was ob-served by imaging means,histological techniques was used to observe the new bone formation and distribution of seed cells. Results Cell centrifugal adhesive assay indicated the adherent bMSCs on rFN/CDH-BCP associated with the ligand density,the biomimetic surface posses-ses excellent biocompatibility. The ALP activity on rFN/CDH-BCP surface was the highest among all samples on the 10th day after induction (P<0. 05). On the 21st day,alizarin red staining showed that the oval-shaped and orange-red nodules,either the number or the area,distrib-uted wider on rFN/CDH-BCP surface. The results from X plain after 3 months revealed a fuzzy gap between material and bone bed,and higher cover rate of intertransverse process space with new bone deposition on rFN/CDH-BCP surface. Conclusion Histologically,rFN/CDH-BCP exhibited as interlacing bone trabecula bridging biomaterial suface and cortical bone of transverse process continously. The bone mass was much more than the ture BCP class. The comprehensive data reveals that when loaded with MSCs,rFN/CDH-BCP demonstrates superior char-acteristics of osteoconduction and osteoinduction,and substantially enhances healing capacity in vivo.