Low temperature fabrication of magnesium phosphate cement scaffolds by 3D powder printing

Uwe Klammert; Elke Vorndran; Tobias Reuther; Frank A. Mueller; Katharina Zorn; Uwe Gbureck

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Low temperature fabrication of magnesium phosphate cement scaffolds by 3D powder printing

机译：通过3D粉末印刷法低温制造磷酸镁水泥支架

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Synthetic bone replacement materials are of great interest because they offer certain advantages compared with organic bone grafts. Biodegradability and pre-operative manufacturing of patient specific implants are further desirable features in various clinical situations. Both can be realised by 3D powder printing. In this study, we introduce powder-printed magnesium ammonium phosphate (struvite) structures, accompanied by a neutral setting reaction by printing farringtonite (Mg3(PO_4)_2) powder with ammonium phosphate solution as binder. Suitable powders were obtained after sintering at 1100℃ for 5 h following 20-40 min dry grinding in a ball mill. Depending on the post-treatment of the samples, compres-sive strengths were found to be in the range 2-7 MPa. Cytocompatibility was demonstrated in vitro using the human osteoblastic cell line MG63.

机译：合成骨替代材料备受关注，因为与有机骨移植相比，它们具有某些优势。在各种临床情况下，患者特定植入物的生物降解性和术前制造是进一步理想的功能。两者都可以通过3D粉末打印来实现。在这项研究中，我们介绍了粉末印刷的磷酸铵镁（鸟粪石）结构，并伴随着以磷酸铵溶液作为粘合剂印刷粉铁矿（Mg3（PO_4）_2）粉末而进行的中性固化反应。在球磨机中干磨20-40分钟后，在1100℃下烧结5小时后，可获得合适的粉末。根据样品的后处理，发现抗压强度在2-7 MPa的范围内。使用人成骨细胞系MG63在体外证明了细胞相容性。

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《Journal of materials science 》 |2010年第11期| p.2947-2953| 共7页
作者
Uwe Klammert; Elke Vorndran; Tobias Reuther; Frank A. Mueller; Katharina Zorn; Uwe Gbureck;
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作者单位

Department of Cranio-Maxillo-Facial Surgery, University of Wuerzburg, Pleicherwall 2, 97070 Wuerzburg, Germany;

rnDepartment for Functional Materials in Medicine and Dentistry, University of Wurzburg, Pleicherwall 2, 97070 Wurzburg, Germany;

rnDepartment of Cranio-Maxillo-Facial Surgery, University of Wuerzburg, Pleicherwall 2, 97070 Wuerzburg, Germany;

rnInstitute of Materials Science and Technology (IMT), Friedrich-Schiller-University of Jena, Loebdergraben 32, 07743 Jena, Germany;

rnInstitute of Materials Science and Technology (IMT), Friedrich-Schiller-University of Jena, Loebdergraben 32, 07743 Jena, Germany;

rnDepartment for Functional Materials in Medicine and Dentistry, University of Wuerzburg, Pleicherwall 2, 97070 Wuerzburg, Germany;

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正文语种 eng
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3d powder printing; magnesium phosphate; cement; struvite; bone replacement material;

机译：3D粉末印刷;磷酸镁水泥;鸟粪石骨替代材料;

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机译：将3D打印粉末改性为水泥基材料和3D打印中使用的水泥支架的机械性能
2. Fabrication of microanoporous collagen/dECM/silk-fibroin biocomposite scaffolds using a low temperature 3D printing process for bone tissue regeneration [J] . Hyeongjin Lee, Gi Hoon Yang, Minseong Kim, Materials science & engineering . 2018 ,第MARa期

机译：使用低温3D打印工艺制备微/纳米孔胶原蛋白/ dECM /丝素蛋白生物复合支架以再生骨组织
3. Gelatin/PVA scaffolds fabricated using a 3D-printing process employed with a low-temperature plate for hard tissue regeneration: Fabrication and characterizations [J] . Kim Haeri, Yang Gi Hoon, Choi Chang Hyun, International Journal of Biological Macromolecules: Structure, Function and Interactions . 2018 ,第Pta1期

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4. 3D powder printing of resorbable calcium phosphate scaffold for low load-bearing application using novel phytic acid binder [C] . Sourav Mandal, Susanne Meininger, Uwe Gbureck, World biomaterials congress . 2016

机译：使用新型植酸粘合剂的可吸收性磷酸钙支架的3D粉末印刷，可用于低承重应用
5. Development of a 3D polymer reinforced calcium phosphate cement scaffold for cranial bone tissue engineering. [D] . Alge, Daniel L. 2010

机译：开发用于颅骨组织工程的3D聚合物增强磷酸钙水泥支架。
6. Low-temperature extrusion-based 3D printing of icariin-laden scaffolds for osteogenesis enrichment [O] . Jian-Ting Zhang, Shan-Shan Zhang, Chen-Guang Liu, 2021

机译：基于低温挤出的icariin-Laden支架的3D印刷用于骨质发生富集
7. Solvent-cast 3D printing of magnesium scaffolds [O] . J. Dong, Y. Li, P. Lin, 2020

机译：镁渣的溶剂铸造3D印刷脚手架

Low temperature fabrication of magnesium phosphate cement scaffolds by 3D powder printing

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