The Bone Defect Repairment in Vivo with Co-cultured EPCs and BMSCs
10.3969/j.issn.1003-4706.2018.03.003
- VernacularTitle:EPCs与BMSCs干细胞联合培养体系修复机体骨缺损
- Author:
Xian ZHAO
1
;
Xue-Song HAN
;
Qing-Zhu ZHOU
;
Shan LI
;
Liu LIU
;
Song-Mei WANG
Author Information
1. 昆明医科大学第一附属医院整形外科
- Keywords:
Engineering bone;
Epithelial progenitor cell;
Bone marrow mesenchymal stem cell;
Co-culture;
Bone defect repairment
- From:Journal of Kunming Medical University
2018;39(3):11-18
- CountryChina
- Language:Chinese
-
Abstract:
Objective To reconstruct the deformity of appearance and function of patients with bone defect, co-cultured system with two stem cells were combined with partial deproteinized biological bone to reconstruct the defect of tibia which is one of the main weight-bearing bone. Methods The bone marrow and peripheral blood were harvested form 18 New Zealand rabbits to isolated bone marrow stem cells and epithelial progenitor cells, and engineering bone was constructed with co-cultured system with these two stem cells and partial deproteinized biological bones; about 1 CM of bone defect of each rabbit was made with bone rongeur, then engineering bones were transplanted into the defect area, the osteogenesis and bone defect recovery were observed on day 14, 28 and month 2.Results The difference of absorbance values of BMSCs group, co-cultured cell group and blank group at each time point and between groups were all statistically significant (P<0.001), and the collagen content of bone tissue increased gradually after implantation of tissue engineered bone, and the difference between each group was statistically significant (P <0.001). The repairment of bone defect with the PDPBB combined with BMSCs and EPCs system has the strongest ability to repair the structure andfunction of the tibial defect area. Conclusion The engineering bone constructed with two stem cells and partial deproteinized bone is a good material for bone defect reconstruction.