Metal-on-metal (MOM) is a commonly used bearing notable for its ‘suction fit’ when lubricated. In this study, we examined the capacity for MOM bearings to protect against dislocation after total hip replacement (THR).We undertook a clinical investigation to compare the rate of dislocation of MOM bearings with those of ceramic-on-polyethylene (COP) bearings and found that one MOM bearing dislocated in a series of 109 hips (0.9%) compared with nine of 145 hips (6.2%) in the COP group (p = 0.02).We also performed an in vitro investigation comparing the peak forces generated during forced separation of the two bearings of the same dimensions at velocities from 1 to 50 cm/s. This revealed that the MOM bearing generated significant resistance to separation at all velocities (maximum mean 24 N), whereas the COP did not (maximum mean 1.9 N, p < 0.001). We conclude that MOM bearings are more stable to dislocation than COP bearings as a result of the interfacial forces provided by a thin, lubricating fluid.
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机译:金属对金属(MOM)是一种常用的轴承,在润滑时具有“吸力配合”的特点。在这项研究中,我们检查了MOM轴承防止全髋关节置换(THR)后脱位的能力。我们进行了一项临床研究,以比较MOM轴承与聚乙烯/陶瓷(COP)轴承的脱位率以及发现一个MOM轴承在一系列109髋(0.9%)中脱臼,而COP组145髋中有9髋(6.2%)脱位(p = 0.02)。将相同尺寸的两个轴承以1至50 cm / s的速度分开。这表明,MOM轴承在所有速度(最大平均24 N)下均具有明显的抗分离性,而COP则没有(最大平均1.9 N,p <0.001)。我们得出结论,由于稀薄的润滑液提供的界面力,MOM轴承比COP轴承更易于错位。
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