Porous Metallic Implants from Additive Manufacturing to Biocorrosion: A Review

IF 1.7 4区 化学 Q4 CHEMISTRY, PHYSICAL Johnson Matthey Technology Review Pub Date : 2023-01-01 DOI:10.1595/205651324x16826780236175
Salwa El Baakili, Patrick Munyensanga, Meriame Bricha, K. El Mabrouk
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Abstract

The improved bulk and surface function of manufactured implants has advanced implantation procedures, leading to a decline in surgical risks. Most of the current techniques discussed in the literature are related to additive manufacturing (AM) of lightweight implants based on reliable, precise, flexible scaffolds and capable of mimicking bone properties while incorporating multi-physics features. Furthermore, these techniques have evolved in the production of a variety of biocompatible materials. AM has progressed beyond prototype to full-scale manufacturing of metals, polymers, and ceramic products. However, metallic implants often fail in vivo due to biocorrosion and deterioration, limiting implant longevity. This study reviewed current trends and approaches to enhancing the surface corrosion resistance of porous metallic implants and the effect of interfacial films on biological activity. The art of porous metallic implants manufactured by additive manufacturing and their biocorrosion behavior are discussed. This review also evaluates future trends and perspectives in additively manufactured synthetic orthopedic implants porous with enhanced surface morphology.
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从增材制造到生物腐蚀的多孔金属植入物:综述
人造植入物的体积和表面功能的改进使得植入过程更加先进,从而降低了手术风险。目前文献中讨论的大多数技术都与增材制造(AM)轻量级植入物有关,这些植入物基于可靠、精确、灵活的支架,能够模仿骨骼特性,同时结合多物理场特征。此外,这些技术已经发展到生产各种生物相容性材料。增材制造已经从原型发展到金属、聚合物和陶瓷产品的全面制造。然而,由于生物腐蚀和变质,金属种植体经常在体内失效,限制了种植体的使用寿命。本文综述了提高多孔金属植入物表面耐腐蚀性能的研究现状和方法,以及界面膜对生物活性的影响。讨论了增材制造多孔金属植入物的工艺及其生物腐蚀性能。本综述还评估了增材制造多孔表面形态增强的合成骨科植入物的未来趋势和前景。
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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来源期刊
Johnson Matthey Technology Review
Johnson Matthey Technology Review CHEMISTRY, PHYSICAL-
CiteScore
4.30
自引率
4.30%
发文量
48
审稿时长
12 weeks
期刊介绍: Johnson Matthey Technology Review publishes articles, reviews and short reports on science enabling cleaner air, good health and efficient use of natural resources. Areas of application and fundamental science will be considered in the fields of:Advanced materials[...]Catalysis[...][...]Characterisation[...]Electrochemistry[...]Emissions control[...]Fine and speciality chemicals[...]Historical[...]Industrial processes[...]Materials and metallurgy[...]Modelling[...]PGM and specialist metallurgy[...]Pharmaceutical and medical science[...]Surface chemistry and coatings[...]Sustainable technologies.
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In the Lab: Artificial Metalloenzymes for Sustainable Chemical Production “Biotechnology Entrepreneurship: Leading, Managing and Commercializing Innovative Technologies” Johnson Matthey Highlights Microbubble Intensification of Bioprocessing “Fuel Cell and Hydrogen Technologies in Aviation”
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