优化设计颅内动脉瘤用梯形截面支架底边长度
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国家自然科学基金资助项目(10972016,81171107),北京市自然科学基金资助项目(3092004)


Optimization of baseline on stent with trapezoidal cross-section for intracranial aneurysm
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    摘要:

    目的 为降低梯形截面丝支架植入颅内囊状动脉瘤后瘤腔破裂的风险,对支架丝截面底边长度进行优化设计。方法 构建38种不同底边长度的梯形截面支架及其植入动脉瘤后的有限元模型,利用流固耦合数值模拟计算得到38组最大瘤腔壁面压力梯度值,并应用广义回归神经网络及遗传算法对梯形截面底边长度进行优化,使植入支架后最大瘤腔壁面压力梯度降到最低。结果 优化结果显示,相对传统矩形截面支架,优化后支架将最大瘤腔壁面压力梯度降低了7.86%。结论 广义回归神经网络与遗传算法结合可以很好地解决支架优化方面的问题。

    Abstract:

    Objective To optimize the baseline on the trapezoidal cross section of stent wires, so as to reduce the risk of intracranial saccular aneurysm rupture after the implantation of such stents. Methods Thirty-eight trapezoidal cross-section wire stents with different baselines were constructed to establish the finite element models. Numerical simulation by fluid-solid interaction method was conducted to calculate 38 maximum pressure gradients on the aneurysm wall. GRNN (general regression neural network) and GA (genetic algorithm) were used to optimize the baseline on the cross-section of stents with trapezoidal cross-section wire so as to minimize the maximal pressure gradient on the aneurysm wall. Results Compared with the traditional stent with rectangular cross-section wire, the maximal pressure gradient on the a neurysm wall was reduced by 7.86% after the implantation with the optimized stent with trapezoidal cross-section wire. Conclusions The combination of GRNN and GA is an effective approach for stent optimization.

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张赟,乔爱科.优化设计颅内动脉瘤用梯形截面支架底边长度[J].医用生物力学,2012,27(3):294-298

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  • 收稿日期:2011-08-30
  • 最后修改日期:2011-11-08
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