Fernández-Fairén Mariano, Torres-Perez Ana, Perez Roman, Punset Miquel, Molmeneu Meritxell, Ortiz-Hernández Monica, Manero José María, Gil Javier
Bioengineering Institute of Technology, Facultat de Medicina y Ciencias de la Salud, Universitat Internacional de Catalunya, 080195 Barcelona, Spain.
Hospital Universitario Santa Lucía, Calle Mezquita, s/n, 30202 Cartagena, Spain.
Materials (Basel). 2020 Nov 24;13(23):5318. doi: 10.3390/ma13235318.
Although ceramic-on-ceramic (CoC) bearings have been shown to produce the smallest amount of wear volume in vitro as well as in vivo studies when used for total hip arthroplasties (THA), concerns about the failure of these bearing surfaces persist due to early failures observed after short postoperative time. In this study, an exhaustive analysis of the early failure occurred on the new generation of ceramic bearings, consisting of a composite alumina matrix-based material reinforced with yttria-stabilized tetragonal zirconia (Y-TZP) particles, chromium dioxide, and strontium crystals, was performed. For this study, 118 CoC bearings from 117 patients were revised. This article describes a group of mechanical failure CoC-bearing BIOLOX THA hip prosthesis patients without trauma history. The retrieved samples were observed under scanning electron microscopy (SEM), composition was analyzed with energy dispersive X-ray spectroscopy (EDX), and damaged surfaces were analyzed by grazing-incidence X-ray diffraction (GI-XRD) and white light interferometry. In the short term, CoC articulations provided similar mechanical behavior and functional outcome to those in XLPE cases. However, 5% more early mechanical failures cases were observed for the ceramic components. Although the fracture rate of third generation CoC couples is low, the present study shows the need to further improve the third generation of CoC-bearing couples for THA. Despite the improved wear compared to other materials, stress concentrators are sources of initial crack propagation, such as those found in the bore-trunnion areas. Moreover, in view of the evidence observed in this study, the chipping observed was due to the presence of monoclinic phase of the Y-TZP instead of tetragonal, which presents better mechanical properties. The results showed that total safety after receiving a THA is still a goal to be pursued.
尽管在全髋关节置换术(THA)中,陶瓷对陶瓷(CoC)轴承在体外和体内研究中均显示出产生的磨损量最小,但由于术后短时间内观察到的早期失效情况,人们对这些轴承表面的失效仍存在担忧。在本研究中,对新一代陶瓷轴承发生的早期失效进行了详尽分析,该新一代陶瓷轴承由氧化钇稳定四方氧化锆(Y-TZP)颗粒、二氧化铬和锶晶体增强的复合氧化铝基材料组成。在本研究中,对117例患者的118个CoC轴承进行了翻修。本文描述了一组无创伤史的机械性失效CoC轴承BIOLOX THA髋关节假体患者。对取出的样本进行扫描电子显微镜(SEM)观察,用能量色散X射线光谱仪(EDX)分析成分,并用掠入射X射线衍射(GI-XRD)和白光干涉测量法分析受损表面。短期内,CoC关节与交联聚乙烯(XLPE)病例相比,提供了相似的机械性能和功能结果。然而,陶瓷部件的早期机械性失效病例多了5%。尽管第三代CoC配对的骨折率较低,但本研究表明仍需进一步改进用于THA的第三代CoC轴承配对。尽管与其他材料相比磨损有所改善,但应力集中器是初始裂纹扩展的源头,如在孔-耳轴区域发现的那些。此外,鉴于本研究中观察到的证据,观察到的崩裂是由于Y-TZP存在单斜相而非四方相,四方相具有更好的机械性能。结果表明,接受THA后的总体安全性仍是一个有待追求的目标。
