Abstract A new type of artificial material could possibly be produced by combination of osteoblast with bioactive material in culture, and thus, make the material "alive" . To study the behavior of osteoblast cultured with bioactive materials, the osteoblasts were isolated from the periosteum of Newzeland Rabbits tibia, and cultured in RPMI1640 medium. After 13 subcultures, the cells were identified as osteoblast in vitro by electron microscope, AKP activity and detection of mineral deposition ability. The osteoblasts were subcultured with three bioactive materials: bioactive glass ceramics (BGC), hydroxyapatite (HA), and double phase hydroxyapatite (HA/TCP). After incubationfor 48 hours, scan electron microscope, 3H-TDR, XRD, RS and EDXAwere performed. The results showed that the osteoblasts grew on the HA/TCR had a higher proliferation rate and better osteoblastoid shape than those grew on BCG and HA. Themechanism of the growth of osteoblasts on bioactive materials was discussed, and the factors influencing the growth of osteoblast were analyzed.
ObjectiveTo review the characteristics and applications of different implantation in cervical tuberculosis surgery and the research progress of the new implantation. MethodsBy consulting relevant domestic and foreign research literature on cervical tuberculosis, the classification, advantages, disadvantages, and prospects of implantations were analyzed and summarized. ResultsThe incidence of cervical tuberculosis has increased recently and has a high disability rate. Currently, the implantation in the surgical treatment of cervical tuberculosis are mainly divided into bone materials, metal materials, and bioactive materials; the above materials have their own advantages and disadvantages, for example, the amount of autologous bone is limited, the complications of allogeneic bone are common, and the bone fusion effect of metal materials is poor. With the development of science and technology, the implantation are also more diverse. ConclusionThe choice of the implantation affects the bone fusion directly, furthermore, it affects the effectiveness of cervical tuberculosis, the development of new implantation provides a variety of options for the treatment of cervical tuberculosis.