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find Keyword "纯钛" 3 results
  • THE ROLE OF FETUS DECALCIFIED BONE MATRIX (FDBM) IN INDUCING PURE TITANIUMBONG IMPLANT INTERGRATION

    Because of its high biological compatibility, titanium has been a good biomaterial. The implanted artificial bone made from titanium can contact with the vital and mature osseous tissue directly within 3-6 months, the so-called osteointergration. In order to promote the process of osteointergration, FDBM of rabbit was prepared and was combined with pure titanium so as to speed up osteointergration. The study focused on bone density, bone intergration rate, new bone growth rate around the pure titanium, and the Ca2+ and PO(4)3- density of titanium-bone interface. A control group of pure titanium inplant without FDBM was set up. The results showed FDBM had no antigenicity. It could induce and speed up the new bone formation at titanium-bone interface. The titanium-bone intergration time was within 2 months. It was suggested that there were more bone morphogenesis protein (BMP) or other bone induction and bone formation factors in brephobone than that in child and adult bone. As a kind of bone induction material, FDBM was easy prepared, cheap in price, easy to storage, no antigenicity and obvious bone-inductive function.

    Release date:2016-09-01 11:07 Export PDF Favorites Scan
  • ANALYSIS OF PURE TITANIUM IMPLANTS BONE INTERFACE BY TOF SIMS

    In order to study the Titanium-bone interaction and integration mechanism, the titanium implant was implanted in the tibia of 9 Newzealand rabbits, and the Ti-bone interface performed for 1, 3, and 6 months were examined and analyzed by fluorescence microscope and advanced TOF-SIMS techniques. The results showed that Ti-bone tissue was integrated closely in a very reactive manner. Both physical and chemical integration occurred in the Ti-bone interface. The Ti-bone could diffuse into the bone tissue though the diffusion was very limited. It was up to 100 microns in depth during the early period. The diffusion density was high, and later in a smooth distribution. Furthermore, while Ti+ diffused into the bone tissue, other elements such as Ca+, OH-, O-, etc, could also diffuse into titanium in exchange. The growth pattern around the bone tissue was in two fashions, one was implantefugal and the other was implantopetal. In this study, based on the ionic distribution, osmosis and impurity elements distribution, the Ti-bone integration mechanism was discussed at molecular and atomic level.

    Release date:2016-09-01 11:09 Export PDF Favorites Scan
  • Adhesion and Proliferation of Osteoblasts on Pure Titanium Surface Treated by Microarc Oxidation and Collagen Ⅰ

    【摘要】 目的 探讨微弧氧化(microarc oxidation,MAO)结合应用于纯钛种植体表面处理的可行性。 方法 根据对纯钛钛片处理的不同将实验分为对照组(A组,不作处理)、MAO组(B组,纯钛片上进行MAO处理)及MAO加Ⅰ型胶原组(C组,纯钛片上MAO处理后吸附Ⅰ型胶原)。将成骨细胞培养于各组钛片上,通过扫描电镜、MTT法检测不同时间点各组钛片表面的细胞生长及增殖情况,并检测碱性磷酸酶(alkaline phosphatase,ALP)活性。 结果 扫描电镜显示成骨细胞在C组钛片上细胞黏附情况优于A、B组;MTT法及ALP活性检测示培养3、6 d,成骨细胞在C组钛片上的增殖及ALP活性与A、B组比较差异均有统计学意义(Plt;0.05)。 结论 MAO结合Ⅰ型胶原处理的钛片可更有效提高成骨细胞表面附着、增殖,且具有较高的ALP活性。【Abstract】 Objective To study the feasibility of applying microarc oxidation (MAO) with collagen Ⅰ in surface modification of pure titanium. Methods According to different processing methods, the pure titanium was divided into three groups: the control group (without surface modification, group A), MAO group (with microarc oxidation applied in pure titanium surface modification, group B), MAO+Ⅰ group (with microarc oxidation and collagen Ⅰ applied in pure titanium treatment, group C). Osteoblasts were cultured on the surface of titanium in each group, and the cell proliferation in each group was detected at different time points by scanning electron microscopy and MTT method. Moreover, the activity of alkaline phosphatase (ALP) was also detected. Results Scanning electron microscopy showed that adhesion of osteoblasts for group C was better than group A and group B. MTT method and ALP activity detection indicated that there was a significant difference between group C and group A, B in cell proliferation and ALP activity on the third and sixth day of cultivation (Plt;0.05). Conclusion MAO with collagen Ⅰ applied in surface modification of pure titanium may increase osteoblast attachment, and promote its proliferation and ALP activity.

    Release date:2016-09-08 09:26 Export PDF Favorites Scan
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