Haider Waseem, Munroe N, Tek V, Pulletikurthi C, Gill P K S, Pandya S
Applied Research Center, Florida International University, FL, USA.
J Long Term Eff Med Implants. 2009;19(2):113-22. doi: 10.1615/jlongtermeffmedimplants.v19.i2.30.
Nitinol (an acronym for the Nickel-Titanium Naval Ordnance Laboratory) has been extensively explored as an implant material for the medical industry. The potential problem with Nitinol implant devices is the release of Ni in the human body, which has stimulated a great deal of research on surface modifications and the application of coatings. This paper presents a comprehensive review of various treatments to modify the surface of Nitinol in an effort to inhibit Ni release and to render improved biocompatibility. We discuss the important in-service properties of Nitinol, such as biocompatibility, corrosion resistance, stability, uniformity, and the nature of passivating oxides produced by passivation, electropolishing, magnetoelectropolishing, ion beam implantation, sterilization, and artificial coatings.
镍钛诺(镍钛海军军械实验室的首字母缩写)已被广泛研究作为医疗行业的植入材料。镍钛诺植入装置的潜在问题是人体中镍的释放,这激发了大量关于表面改性和涂层应用的研究。本文全面综述了各种用于修饰镍钛诺表面的处理方法,以抑制镍的释放并提高生物相容性。我们讨论了镍钛诺的重要使用性能,如生物相容性、耐腐蚀性、稳定性、均匀性,以及通过钝化、电解抛光、磁电解抛光、离子束注入、灭菌和人工涂层产生的钝化氧化物的性质。