血流作用下冠脉支架的疲劳寿命优化
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国家自然科学基金资助项目(11072048),国家重点基础研究发展计划973项目基金(2009CB918501)


Fatigue life optimization for coronary stent under the effect of blood flow
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    摘要:

    目的 评估血流作用下冠脉支架的疲劳寿命,并在此基础上对支架的疲劳寿命进行优化设计。方法采用Pro/Engineer建立包含植入支架、血液、血栓以及动脉壁的简化组合模型,使用ANSYS有限元分析程序,利用有限元法模拟支架在动脉壁中受血流的周期性作用,并根据支架内的血流动力学分析结果对评估支架的疲劳寿命。以支架的几何参数作为设计变量,通过拉丁超立方抽样方法选取样本点并得到对应的响应值,建立Kriging代理模型,对冠脉支架的疲劳寿命进行优化。结果Goodman图显示优化后支架是安全的;累积损伤法表明支架最大损伤点处于支架血流流入端的第2交叉面上,优化后支架的疲劳寿命提高30.55%。结论有限元法可对冠脉支架疲劳寿命进行有效的评估,建立Kriging代理模型对支架进行优化设计可以有效地提高支架的使用寿命。

    Abstract:

    Objective To evaluate the fatigue life of coronary stent under the effect of blood flow and thus optimize the stent design.MethodsA simplified model of the stent, blood, plaque and artery was established using Pro/Engineering, and the periodic blood flow impact on the vascular stent was simulated by finite element method via ANSYS. The result on hemodynamics from such stent was then used to evaluate its fatigue life. The geometric parameters of the stent were chosen as design variables for optimization. By using Latin Hypercubic sampling and ANSYS program, responses of the sample points could be obtained and the Kriging surrogate model was then constructed to optimize the fatigue life of the coronary stent.Results Goodman’s method showed that the optimized stent was safe. The cumulative damage method indicated that the largest damage occurred at the second cross-section of the bridge struts. The fatigue life of the optimized stent could be enhanced by 30.55%. Conclusions The finite element method can be used to evaluate the fatigue life of the coronary stent, and the optimization of stent by establishing Kriging model can effectively enhance the fatigue life of the stent.

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张艺浩,李红霞,高月华,王希诚.血流作用下冠脉支架的疲劳寿命优化[J].医用生物力学,2012,27(5):521-526

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  • 收稿日期:2012-01-06
  • 最后修改日期:2012-03-07
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