Influence of Active Af on the Fatigue Performance of Peripheral Stents Subjected to Physiological Loading Conditions

M. Frotscher, M. Kiekbusch, S. Mews, A. Knopp, D. Serowietzki
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Abstract

The temperature difference between active austenite finish temperature, Af, and the intended operating temperature in the range of 3.2 °C to 20.8 °C. has been reported to have an influence on the fatigue lifetime of a pseudoelastic shape-memory device. The negative effect on fatigue life increases with the temperature difference between active Af and, in case of a biomedical device, 37 °C body temperature. In this study, samples were prepared and processed in a manner to replicate aspects of the complex manufacturing process, device design, and geometry of state-of-the-art stents, and physiological loading conditions. Following explantation from the mock vessels after fatigue testing, the stents were inspected using optical microscopy to detect and document the location and number of strut fractures. The fatigue results were compared and assessed for statistical significance between the groups with various active Af temperatures. The variations in the heat treatments, as part of the manufacturing process, resulted in three distinct groups of samples with varying target active Af temperatures. These variances corresponded to differences in fatigue damage.
生理载荷条件下主动Af对周围支架疲劳性能的影响
活性奥氏体表面温度Af与预期工作温度之间的温差在3.2°C至20.8°C之间。已被报道对假弹性形状记忆装置的疲劳寿命有影响。对疲劳寿命的负面影响随着主动Af与生物医学设备37℃体温之间的温差而增加。在这项研究中,样品的制备和处理方式复制了复杂的制造过程、设备设计、最先进支架的几何形状和生理负载条件。在疲劳测试后,从模拟血管中取出支架后,使用光学显微镜检查支架,以检测并记录支柱断裂的位置和数量。对不同活动温度组间的疲劳结果进行比较和评估,有无统计学意义。热处理的变化,作为制造过程的一部分,导致三组不同的样品具有不同的目标活性Af温度。这些差异对应于疲劳损伤的差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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