Possibility of osteogenesis of partially deproteinised decalcified bone composited with osteoblast in vivo
- VernacularTitle:部分去蛋白脱钙骨复合成骨细胞体内植入形成软骨或骨的可能性实验
- Author:
Yanlin LI
;
Rui HAN
;
He HUANG
;
Jianwei WANG
;
Chengkui GENG
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2006;10(13):170-172
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND: Natural bilogical bone-derived materials processed with physical and chemical methods possess natural network pore system. They have good cellular compatibility, and help osteoblasts attach and grow on them, and can be used as the scaffolds of osteoblasts.OBJECTIVE: To observe the osteogenetic effect of partially deproteinised decalcified bone (PDDB) as scaffolds of osteoblasts in vivo.DESIGN: A randomized and controlled trial.SETTING: Central Laboratory of the First Hospital of Kunming Medical College.MATERIALS: Partially deproteinised decalcified bone; human embryonic periosteum-derived osteoblasts; twenty 4-week-old BALB/c nude mice,with the body mass of 25 to 28 g, of either gender.METHODS: This experiment was conducted at the Central Laboratory of the First Affiliated Hospital of Kuming Medical College from January to June 2003. PDDB composited with human embryonic periostea-induced osteoblasts were implanted into the nude mice after cultured for 1 week in vivo, 4 scaffolds in each nude mouse. Composite of scalfolds and cells implanted on the left side of the spine was set as experimental side and simple implanted material on the right side of the spine was set as blank control side. Then alkaline phosphatase activity and routine histological examination were performed 4 and 8 weeks after operation.MAIN OUTCOME MEASURES: General observation, alkaline phosphatase activity and routine histological examination were performed after the materials were taken out.RESULTS: Twenty nude mice entered the stage of result analysis. ① General observation of the implanted materials: No necrosis, ecpyesis, or fluidifying was found around the implanted materials, but ingrowth and enwrapption of soft tissues were found. ② Measurement of alkaline phosphatase activity: alkaline phosphatase activity after PDDB composited osteoblasts in vivo was stronger at week 8 than at week 4 [(22.854±6.018) nkat/g vs(11.286±4.268) nkat/g], and was much stronger than that of the simple implanted materials [(1.217±0.083) nkat/g vs (2.717±0.583) nkat/g]. ③ Results of routine histological examination: Cartilage formed at week 4 and part of cartilage formed new bone and marrow cavity at week 8 at the experimental side, cartilage and new bone formed much more as time went by, but there was no any cartilage or bone formation at the control side.CONCLUSION: Cartilage and bone form after PDDB composited with osteoblasts are implanted, and more cartilage and new bone form as time passes. PDDB can be used as the scaffolds of osteoblasts.
