Journal ArticleDOI
Review of the biocompatibility of micro-arc oxidation coated titanium alloys
TLDR
In this paper, the influence of the electrolyte, process parameters, pretreatment and post-treatment on the coating characteristics (surface micrograph, adhesion strength and biological compatibility etc.) is detailed.About:
This article is published in Materials & Design.The article was published on 2015-11-15. It has received 243 citations till now. The article focuses on the topics: Titanium & Titanium alloy.read more
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Surface modification of titanium and titanium alloys: Technologies, developments, and future interests
Journal ArticleDOI
Recent advances in biodegradation controls over Mg alloys for bone fracture management: A review
Ming-Shi Song,Ming-Shi Song,Rong-Chang Zeng,Yun-Fei Ding,Rachel W. Li,Mark Alan Easton,Ivan S. Cole,Nick Birbilis,Xiaobo Chen,Xiaobo Chen +9 more
TL;DR: The critical criteria and the state-of-the-art strategies for controlling the degradation process of Mg alloys are reported and future developments of biodegradable Mg and its alloys systems with satisfactory specifications for clinical trials and deployment are discussed.
Journal ArticleDOI
Electrochemical surface engineering of titanium-based alloys for biomedical application
TL;DR: In this paper, a brief overview of surface engineering of the Ti-based alloys from the perspective of electrochemistry is given, which mainly focuses on three major electrochemical techniques: low voltage anodization, micro-arc oxidation, and electrodeposition.
Journal ArticleDOI
Rapid Photo-Sonotherapy for Clinical Treatment of Bacterial Infected Bone Implants by Creating Oxygen Deficiency Using Sulfur Doping
Kun Su,Lei Tan,Xiangmei Liu,Zhenduo Cui,Yufeng Zheng,Bo Li,Yong Han,Zhaoyang Li,Shengli Zhu,Yanqin Liang,Xiaobo Feng,Xianbao Wang,Shuilin Wu +12 more
TL;DR: A rapid photo-sonotherapy by creating an oxygen-deficient on titanium (Ti) implant through sulfur (S)-doping (Ti-S-TiO2-x), which endowed the implants with great sonodynamic and photothermal ability and reached an excellent antibacterial efficiency without introducing an external antibacterial coating.
Journal ArticleDOI
Characterization, Bioactivity and Antibacterial Properties of Copper-Based TiO2 Bioceramic Coatings Fabricated on Titanium
TL;DR: In this paper, the micro-arc oxidation (MAO) and physical vapor deposition-thermal evaporation (PVD-TE) techniques were combined for dental implant applications.
References
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How useful is SBF in predicting in vivo bone bioactivity
Tadashi Kokubo,Hiroaki Takadama +1 more
TL;DR: Examination of apatite formation on a material in SBF is useful for predicting the in vivo bone bioactivity of a material, and the number of animals used in and the duration of animal experiments can be reduced remarkably by using this method.
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Ti based biomaterials, the ultimate choice for orthopaedic implants – A review
TL;DR: In this paper, the influence of alloy chemistry, thermomechanical processing and surface condition on these properties is discussed and various surface modification techniques to achieve superior biocompatibility, higher wear and corrosion resistance.
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Surface treatments of titanium dental implants for rapid osseointegration
TL;DR: The local release of bone stimulating or resorptive drugs in the peri-implant region may also respond to difficult clinical situations with poor bone quality and quantity, which should ultimately enhance the osseointegration process of dental implants for their immediate loading and long-term success.
Journal ArticleDOI
Understanding and controlling the bone-implant interface
David A. Puleo,Antonio Nanci +1 more
TL;DR: Current knowledge of the bone-biomaterial interface is reviewed and methods being investigated for controlling it, including biochemical methods of surface modification, which immobilize molecules on biomaterials for the purpose of inducing specific cell and tissue responses.
Journal ArticleDOI
Preparation of bioactive Ti and its alloys via simple chemical surface treatment.
TL;DR: The present chemical surface modification is expected to allow the use the bioactive Ti and its alloys as artificial bones even under load-bearing conditions.