FABRICATION OF POROUS β-TRICALCIUM PHOSPHATE SCAFFOLDS USING FOAM REPLICA WITH 3D TECHNOLOGY

Kakeru Tsuchiya, Shohei Nakata, M. Ohno, Shigetaka Tamagawa, H. Shibata, K. Hashimoto
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Abstract

: The present work is based on prior research into the synthesis of porous β-tricalcium phosphate (β-TCP) with continuous pores by applying a β-TCP suspension onto a porous polyurethane foam by spray coating followed by pyrolysis of the foam. In the work reported herein, the three-dimensional (3D) pore structure of a polyurethane foam specimen was scanned using X-ray computerized tomography after which a porous acrylic foam with an optimized pore structure was fabricated using a 3D printer based on this scan. The pore size and pillar diameter of the porous printed material could be modified simply by changing the brightness value of the image data in the processing software. Specifically, the pillar diameter was increased while the pore size became smaller as the brightness was increased. β-TCP with interconnecting pores could be easily fabricated by spray coating these printed molds. The physical properties and porous structure of the product could also be tuned by modifying the pore structure of the foam and the amount of spray coating. The porous β-TCP obtained in this study had sufficient physical properties to be used as a scaffold material, suggesting the possibility of applying this scanning process to other porous materials, including living bones.
泡沫3d打印技术制备多孔β-磷酸三钙支架
本工作是在前人研究的基础上,通过在多孔聚氨酯泡沫材料上涂覆β-磷酸三钙(β-TCP)悬浮液,然后对泡沫进行热解,合成具有连续孔隙的多孔β-磷酸三钙(β-TCP)。在本文报道的工作中,使用x射线计算机断层扫描聚氨酯泡沫试样的三维(3D)孔隙结构,然后在此扫描的基础上使用3D打印机制造具有优化孔隙结构的多孔丙烯酸泡沫。通过在处理软件中改变图像数据的亮度值,可以简单地修改多孔印刷材料的孔径和柱径。随着亮度的增加,柱直径增大,孔径变小。通过对这些打印模具进行喷涂,可以很容易地制备出具有互连孔的β-TCP。还可以通过改变泡沫的孔隙结构和喷涂量来调节产品的物理性能和多孔结构。本研究获得的多孔β-TCP具有足够的物理性能,可以用作支架材料,这表明该扫描过程可以应用于其他多孔材料,包括活骨。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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