Porous titanium (Ti) and Ti-high density polyethylene (Ti-HDPE) composite were investigated as new hip implant materials to increase the biomechanical compatibility by promoting a matching modulus of elasticity between hip stem and human bone. Surfaces of both materials were modified to increase its bioactivity and biocompatibility through electrochemical activation treatment and deposition of hydroxyapatite (HA) coating. The electrochemical activation treatment of both materials in 10 M NaOH solution created a bone-like porous nanostructure across the surfaces, thus enhancing the growth of natural bone. A top layer with nanometer-pores and TiO2 was formed during the activation process, creating a favorable and prerequisite condition conducive to the formation of hydroxyapatite coating. Furthermore, a layer of hydroxyapatite, a bioactive and biocompatible bioceramics that is the main component of natural bone, was deposited on the porous Ti and Ti-HDPE composite through a novel chemo-biomimetic method. The formed coating was characterized through TEM as a nanometer scale crystalline.
展开▼
机译:研究了多孔钛(Ti)和钛高密度聚乙烯(Ti-HDPE)复合材料作为新型髋关节植入物材料,以通过促进髋关节与人骨之间的匹配弹性模量来提高生物力学相容性。通过电化学活化处理和羟基磷灰石(HA)涂层的沉积,对两种材料的表面进行了改性,以提高其生物活性和生物相容性。两种材料在10 M NaOH溶液中的电化学活化处理均在整个表面上形成了骨头状的多孔纳米结构,从而增强了天然骨头的生长。在活化过程中形成了具有纳米孔和TiO2的顶层,创造了有利于形成羟基磷灰石涂层的前提条件。此外,通过一种新型的化学仿生方法,在天然钛和Ti-HDPE复合多孔材料上沉积了一层羟基磷灰石,它是天然骨骼的主要成分,具有生物活性和生物相容性。形成的涂层通过TEM表征为纳米级晶体。
展开▼
