Hajdinjak Tine, Patel Mayur, Papatsoris Athanasios, Masood Junaid, Buchholz Noor, Birch Malcolm
Department of Urology, Barts and The London NHS Trust, London, EC1A 7BE, UK.
Urol Res. 2008 Oct;36(5):241-5. doi: 10.1007/s00240-008-0149-1. Epub 2008 Aug 28.
The ZebraStent is a new-concept lumen-less teflon-coated nitinol double-J wire-stent, designed to facilitate the passage of residual fragments after extracorporeal shock wave lithotripsy. In clinical practice we observed a small number of stent fractures. Hence, an experimental model was designed to simulate the physical forces that may lead to material fatigue of the stent. Flexion force was simulated by "half circular kidney mimicking structures" (HCKMS) into which the upper part of the stent was placed. All experiments were done for a minimum of 5 million cycles representing a stent indwelling time of 9 months, or until stent fracture, and simulating respiratory kidney movement. It was demonstrated that as the diameter of the HCKMS decreases, thus leading to an increased bending of the stent, the likelihood of stent fracture increased proportionally and occurred earlier. From our results it appears that stent fractures can be avoided by observing a maximum indwelling time of 6-8 weeks (which should suffice for the duration of a average SWL treatment), by choosing the correct (and shortest possible) stent length, and perhaps by manufacturer's modifications decreasing the stent's resistance to flexion. The ZebraStent concept remains appealing if it is considered as a short-term stent for post-SWL residual fragments.
斑马支架是一种新概念的无腔聚四氟乙烯涂层镍钛诺双J形金属丝支架,设计用于促进体外冲击波碎石术后残余碎片的排出。在临床实践中,我们观察到少数支架发生断裂。因此,设计了一个实验模型来模拟可能导致支架材料疲劳的物理力。通过将支架上部放置其中的“半圆形肾脏模拟结构”(HCKMS)来模拟弯曲力。所有实验至少进行500万次循环,相当于支架留置时间9个月,或直至支架断裂,并模拟肾脏呼吸运动。结果表明,随着HCKMS直径减小,导致支架弯曲增加,支架断裂的可能性成比例增加且发生得更早。从我们的结果来看,通过观察6-8周的最大留置时间(这应该足以满足平均SWL治疗的持续时间)、选择正确(且尽可能短)的支架长度,或许通过制造商改进以降低支架的抗弯曲性,可以避免支架断裂。如果将斑马支架视为用于SWL术后残余碎片的短期支架,其概念仍然具有吸引力。
