陶瓷全髋关节置换术在陶瓷磨损测试标准下发生的吱吱声。

O. O'Dwyer Lancaster-Jones, Rebecca Reddiough
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引用次数: 1

摘要

陶瓷对陶瓷全髋关节置换术的临床报告有时可能会注意到噪音或吱吱声。关于这是否是一个实际的问题,有很多争论,但一些医疗中心希望避免因产生的噪音而对患者的健康产生任何可能的负面影响。这项研究的目的是确定在不同的润滑条件下,可以从陶瓷对陶瓷的髋关节测试标准中获得什么声音频率。ISO-14242-1(35°杯角)和ISO-14242-4(55°杯角,4 mm平移失配)标准用于在干燥、水和血清润滑条件下测试,最多10000次循环。在标准步行(ISO-14242-1)测试下,在水和血清条件下未检测到声音。在水和边缘负载(ISO-14242-4)条件下,在600个循环内拾取到频率范围为0.4-0.8kHz的可听噪声。当频率高于2kHz时,所有干式测试都会产生高音吱吱声。在干边加载条件下的一个样品具有0.8 kHz的可听见的噪声,被认为没有吱吱声,因为它不是高音。标准行走(ISO-14242-1)和边缘加载(ISO-14242-4)条件下的干式测试导致了高音噪声,其频率范围分别为2-8 kHz和5-9 kHz。一个用边缘负载和血清测试的样本在频率为7kHz的6000次循环后产生微弱的吱吱声。由于ISO-14242-4条件导致的边缘载荷具有增加的扭矩,这可能在导致噪声的摩擦增加中发挥作用。在润滑条件下,边缘负载条件更容易产生可听见的噪音和吱吱声。
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The occurrence of squeaking under wear testing standards for ceramic on ceramic total hip replacements.
Ceramic on ceramic total hip replacement clinical reports may on occasion note a noise or squeaking. There is much debate on whether this is an actual concern, but some medical centres want to avoid any possible negative impact on the patients' wellbeing due to the noise generated. The aim of this study was to determine what sound frequencies can be picked up from hip testing standards for ceramic on ceramic under different lubrication conditions. The ISO-14242-1 (35° cup angle) and ISO-14242-4 (55° cup angle with a 4 mm translational mismatch) standards were used for testing with dry, water and serum lubrication conditions up to 10000 cycles. No sound was detected for water and serum conditions under standard walking (ISO-14242-1) testing. An audible noise with a frequency range of 0.4-0.8 kHz was picked up within 600 cycles under water and edge loading (ISO-14242-4) conditions. All dry testing produced a high pitch squeak when the frequency was higher than 2 kHz. One sample under dry edge loading conditions had an audible noise of 0.8 kHz, considered not as squeaking, as it was not high pitch. Dry testing for both, standard walking (ISO-14242-1) and edge loading (ISO-14242-4) conditions, which resulted in a high pitch noise, had a frequency range of 2-8 kHz and 5-9 kHz respectively. One sample tested with edge loading and serum produced a faint squeak noise after 6000 cycles with a frequency of 7 kHz. Edge loading due to ISO-14242-4 conditions had an increased torque which may be playing a role in increased friction leading to noise. Edge loading conditions were more prone to the generation of audible noise and squeaking whilst under lubricated conditions.
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