Fortifying the Bone-Implant Interface Part 1: An In Vitro Evaluation of 3D-Printed and TPS Porous Surfaces

机译：强化骨植入物界面第1部分：3D打印和TPS多孔表面的体外评估

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BackgroundAn aging society and concomitant rise in the incidence of impaired bone health have led to the need for advanced osteoconductive spinal implant surfaces that promote greater biological fixation (e.g. for interbody fusion cages, sacroiliac joint fusion implants, and artificial disc replacements). Additive manufacturing, i.e. 3D-printing, may improve bone integration by generating biomimetic spinal implant surfaces that mimic bone morphology. Such surfaces may foster an enhanced cellular response compared to traditional implant surfacing processes.

机译：背景技术衰老的社会和骨健康受损的发生率随之上升，导致需要先进的骨传导性脊柱植入物表面以促进更大的生物固定（例如，椎间融合器，sa关节融合植入物和人工椎间盘置换）。增材制造（即3D打印）可以通过生成模仿骨骼形态的仿生脊柱植入物表面来改善骨骼整合。与传统的植入物铺面工艺相比，此类表面可促进增强的细胞反应。

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期刊名称 International Journal of Spine Surgery
作者
Regina F. MacBarb; Derek P. Lindsey; Chelsea S. Bahney; Shane A. Woods; Mark L. Wolfe; Scott A. Yerby;
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作者单位

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年(卷),期 2017(11),-1
年度 2017
页码 15
总页数 11
原文格式 PDF
正文语种
中图分类外科学;
关键词
additive manufacturing titanium plasma spray coating osteointegration biomimetic implant surfaces;

机译：增材制造;钛等离子喷涂;骨整合;仿生植入物表面;

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1. 3D-printed cobalt-chromium porous metal implants showed enhanced bone-implant interface and bone in-growth in a rabbit epiphyseal bone defect model [J] . Yu Ning Chim, Simon Kwoon Ho Chow, Sze Yi Mak, Bone Reports . 2020,第1期

机译：3D印刷的钴 - 铬多孔金属植入物显示出增强的骨植入界面和兔骨骺骨缺损模型中的骨植入界面
2. Engineering the surface chemistry of porous polymers by click chemistry and evaluating the interface properties by Raman spectroscopy and electrochromatography [J] . Mohamed Guerrouache, Samia Mahouche-Chergui, Tahar Mekhalif, Surface and Interface Analysis: SIA: An International Journal Devoted to the Development and Application of Techniques for the Analysis of Surfaces, Interfaces and Thin Films . 2014,第10a11期

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3. Probiotic bacteria cell surface-associated protein mineralized hydroxyapatite incorporated in porous scaffold: In vitro evaluation for bone cell growth and differentiation [J] . Mullick Priya, Das Gopal, Ramesh Aiyagari Materials science & engineering . 2021,第Jula期

机译：益生菌细胞表面相关蛋白质矿化羟基磷灰石掺入多孔支架中：对骨细胞生长和分化的体外评估
4. In Vitro Osseogenesis at the Bone-Implant Interface Under Cyclic Tensile and Compressive Strains [C] . Andrew P. Noblett, Warren 0. Haggard, Joel D. Bumgardner Annual meeting of the Society for Biomaterials . 2011

机译：循环拉伸和压缩应变下骨-植入物界面的体外成骨作用
5. Fabrication and Biological Evaluation of Micro- and Nanostructured Surfaces, Coatings, and 3D-printed Scaffolds to Improve Function and Biocompatibility of Medical Devices [D] . Petrochenko, Peter Evgeniyevich 2015

机译：微和纳米结构表面，涂层和3D打印支架的制备和生物学评估，以改善医疗设备的功能和生物相容性
6. Fortifying the Bone-Implant Interface Part 2: An In Vivo Evaluation of 3D-Printed and TPS-Coated Triangular Implants [O] . Regina F. MacBarb, Derek P. Lindsey, Shane A. Woods, 2017

机译：强化骨植入物界面第2部分：3D打印和TPS涂层三角植入物的体内评估
7. Fortifying the Bone-Implant Interface Part 2: An In Vivo Evaluation of 3D-Printed and TPS-Coated Triangular Implants [O] . Regina F. MacBarb, Derek P. Lindsey, Shane A. Woods, 2017

机译：强化骨植入界面第2部分：3D印刷和TPS涂层三角形植入物的体内评估
8. Modeling and Thermal Performance Evaluation of Porous Curd Layers in Sub-Cooled Boiling Region of PWRs and Effects of Sub-Cooled Nucleate Boiling on Anomalous Porous Crud Deposition on Fuel Pin Surfaces [R] . 2005

机译：压水堆子冷却沸腾区多孔凝结层的建模与热性能评价及亚冷却核沸腾对燃料针表面异常多孔沉积的影响

Fortifying the Bone-Implant Interface Part 1: An In Vitro Evaluation of 3D-Printed and TPS Porous Surfaces

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