多孔钛陶瓷支架的制备与表征

Inga Narkevica, Laura Stradiņa, V. Yakushin, J. Ozoliņš
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引用次数: 7

摘要

近年来,生物相容性陶瓷作为一种促进和引导自然骨再生的多孔支架越来越受到人们的关注。由于二氧化钛(钛白粉或TiO2)优异的生物相容性,多孔三维(3D) TiO2结构已被提出作为有前途的支架材料,用于诱导周围环境的骨形成和增强植入后的血管化。本文采用聚合物泡沫复制法制备了三维多孔TiO2陶瓷支架。这项工作涉及几个重要的问题,被认为是重要的3D支架应用于再生骨组织:孔径,孔隙率和机械强度。制备了孔径为300 μm ~ 700 μm,孔隙率> 90%的TiO2陶瓷支架。低粘度TiO2浆料复涂支架后,支架呈现完全开放且相互连接的孔结构。通过优化热处理条件,可以控制支撑的晶粒生长和坍塌,从而提高抗压强度。二次复涂后抗压强度可达0.74±0.08 MPa,且未改变开孔结构。
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Preparation and Characterization of Porous Titania Ceramic Scaffolds
Biocompatible ceramics have recently attracted increasing attention as porous scaffolds that stimulate and guide natural bone regeneration. Due to excellent biocompatibility of titania (titanium dioxide or TiO2) porous three-dimensional (3D) TiO2 structures have been proposed as promising scaffolding materials for inducing bone formation from the surrounding environment and for enhancement of vascularisation after implantation. In this paper, 3D porous TiO2 ceramic scaffolds were produced via polymer foam replica method. This work deals with several important issues that are considered to be important for 3D scaffolds applied to regenerate bone tissue: pore size, porosity and mechanical strength. TiO2 ceramic scaffolds with pore size 300 μm − 700 μm and porosity > 90 % were obtained. Scaffolds showed fully open and interconnected pore structure that remained after recoating them with low viscosity TiO2 slurry. By optimising thermal treatment conditions grain growth and collapse of struts could be controlled in a way that resulted in higher compressive strength. Recoating greatly improved compressive strength and it reached 0.74±0.08 MPa after two coatings without causing changes in the open porestructure.
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