Objective To study the effect of various storage methods on cellular compatibility of bio-derived bone. Methods Freeze dried biomaterials had been stored in two different preservation solutions for three months, while the biomaterials stored for the same time were observed as control group. The experiment was divided into groups A, B, C and D according to different storage methods (group A: with materials stored in preservation solution 1; group B:with materials stored in preservation solution 2; group C:with freeze-dried materials; and group D: simple osteoblasts). Osteoblasts at 2×106/ml had been cocultured with materials for 1, 3, 5, and 7 days.The cell-material complexwas observed under phase microscope and electronic scanning microscope to evaluate the adhesion and growth of osteoblasts; the cell viability and alkaline phosphatase(ALP) activity were measured,and the cell cycle wasanalysed by flow cytometer.WTHZ〗Results Osteoblasts adhered to materials preserved by different methods,differentiated and proliferated in the hole of materials. The difference of cell viability was not significant between three groups on day 1 andday 3. The cell viability of osteoblasts adhered to three materials was Agt;Cgt;B group on day 5 and day 7 (Plt;0.01,Plt;0.05). The ALP activity of osteoblasts adhered to three materials was Agt;Cgt;B group on day 7(Plt;0.01).The cell cycle of differentgroups did not change significantly,the abnormal cells were not seen. Conclusion The choice of proper preservation solution can optimize the cellular compatibility of bio-derived bone.
OBJECTIVE: To evaluate the cellular compatibility of three natural xenogeneic bone derived biomaterials. METHODS: Three types of natural xenogeneic bone derived biomaterials were made with physical and chemical treatment, composite fully deproteinized bone(CFDB), partially deproteinized bone(PDPB) and partially decalcified bone(PDCB). Three types biomaterials were cocultured with human embryonic periosteal osteoblasts. The cell growth, attachment, cell cycle, alkaline phosphatase activity were detected to evaluate the cellular compatibility to biomaterials. RESULTS: Osteoblasts attached on all three biomaterials and grew well, the effect of three biomaterials on cell proliferation was PDCB gt; PDPB gt; CFDB. The cell cycle was not obviously affected by three biomaterials. The effect of three biomaterials on alkaline phosphatase activity of osteoblasts was PDCB gt; PDPB gt; CFDB. CONCLUSION: CFDB,PDPB,PDCB have good cellular compatibility without cytotoxic and tumorigenicity, CFDB is the best. The three biomaterials can be used as scaffold materials of bone tissue engineering.