Design and Fabrication of Bone Tissue Engineering Scaffolds via Rapid Prototyping and CAD

被引：0

作者：

Liulan, Lin ^{[1
]}

Qingxi, Hu ^{[1
]}

Xianxu, Huang ^{[1
]}

Gaochun, Xu ^{[1
]}

机构：

[1] Rapid Manufacturing Engineering Center, Shanghai University, Shanghai

来源：

Journal of Rare Earths | 2007年 / 25卷 / SUPPL. 2期

关键词：

bone tissue engineering; CAD; Q28; rapid prototyping; scaffold;

D O I：

10.1016/S1002-0721(07)60510-9

中图分类号：

学科分类号：

摘要：

It is an important aspect that rapid prototyping technique can be used into tissue engineering. Biomimetic porous scaffolds made of calcium phosphate mineral are promising structures to develop bone substitute. Bone tissue engineering scaffold characteristics and properties are often considered to be critical factors in their design and fabrication. In this paper according to their demand, some scaffolds were introduced and designed with Computer Aided Design (CAD) software. In order to fabricate the scaffolds, biomaterials, β-tricalcium phosphate (β-TCP), and polymeric blends were used on a selective laser sintering (SLS) system, a kind of rapid prototyping machine, to produce specimens. Then the specimens were treated by high temperature to assess their suitability on SLS processing. © 2007 The Chinese Society of Rare Earths.

引用

页码：379 / 383

页数：4

共 11 条

[1] Patrick Jr. C., Mikos A., Mcintire L., Frontiers in Tissue Engineering [M], (1998)
[2] Hutmacher D., Scaffolds in tissue engineering bone and cartilage [J], Biomaterials, 21, (2000)
[3] Yang S., Leong K., Du Z., Chua C., The design of scaffolds for use in tissue engineering: Part 1-Traditional factors [J], Tissue Eng., 7, 6, (2001)
[4] Tan K., Chua C., Leong K., Cheah C., Cheang P., Bakar M., Abu, Cha S., Scaffold development using selective laser sintering of polyetheretherketone-hydroxyapatite biocomposite blends [J], Biomaterials, 24, (2003)
[5] Chen Z., Li D., Lu B., Tang Y., Sun M., Xu S., Fabrication of osteo-structure analogous scaffolds via fused deposition modeling [J], Scripta Materialia, 52, (2005)
[6] Woesz A., Rumpler M., Varga J., Stampf F., Fratzl-Zelman N., Roschger P., Klaushofer K., Fratzl P., Towards bone replacement materials from calcium phosphates via rapid prototyping and ceramic gelcasting [J], Materials Science and Engineering C, 25, (2005)
[7] Williams Jessica M., Adewunmi A., Schek Rachel M., Flanagan Colleen L., Krebsbach Paul H., Feinberg Stephen E., Hollister Scott J., Das S., Bone tissue engineering using polycaprolactone scaffolds fabricated via selective laser sintering [J], Biomaterials, 26, (2005)
[8] Zein I., Hutmacher Dietmar W., Tan K.C., Teoh S.H., Fused deposition modeling of novel scaffold architectures for tissue engineering applications [J], Biomaterials, 23, (2002)
[9] Qiu G., Li W., Zhang M., Li Z., Yan C., Li Y., Ding G., Review, intelligence and development of rare earths during biological evolution [J], Journal of Rare Earths, 22, 6, (2004)
[10] Zhang Z., Hu N., Liu X., Xu H., Effect of rare earth on physiological-chemical characteristics and its growth of aloe in tissue culture [J], Journal of Rare Earths, 23, 6, (2005)

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