Finite element simulation and testing of cobalt-chromium stent: a parametric study on radial strength, recoil, foreshortening, and dogboning

Kumar Avinash; Bhatnagar Naresh

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Finite element simulation and testing of cobalt-chromium stent: a parametric study on radial strength, recoil, foreshortening, and dogboning

机译：有限元仿真与钴铬支架的试验：径向强度，反冲，缩短和荒漠化的参数研究

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The effectiveness of cardiovascular stenting procedure depends on the crimping and expansion characteristics of a stent, influenced by its design parameters. In this study, CoCr stents are fabricated, crimped on a tri-folded balloon, and expanded using manual inflation device. Similarly, in the finite element model, a tri-folded balloon is used to expand the stent. The length and diameter are measured to evaluate the radial strength, recoil, foreshortening, and dogboning. The simulation and experimental results match satisfactorily. The validated FE model can be used with confidence to optimize future stent designs, thus reducing the number of testing and product development time.

机译：心血管支架程序的有效性取决于支架的压接和膨胀特性，受其设计参数的影响。在这项研究中，制造了COCT支架，在三折的球囊上卷曲，并使用手动充气装置膨胀。类似地，在有限元模型中，使用三折的球囊来扩展支架。测量长度和直径以评估径向强度，反冲，缩短和储料。模拟和实验结果符合令人满意。经过验证的FE模型可以放心地用于优化未来支架设计，从而减少测试数量和产品开发时间。

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来源
《Computer methods in biomechanics and biomedical engineering》 |2021年第4期|245-259|共15页
作者
Kumar Avinash; Bhatnagar Naresh;
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Indian Inst Technol Delhi Dept Mech Engn New Delhi India;

Indian Inst Technol Delhi Dept Mech Engn New Delhi India;

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正文语种 eng
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关键词
Cardiovascular stent design; FEM; radial strength; foreshortening; dogboning;

机译：心血管支架设计;FEM;径向强度;缩短;守护;

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专利

1. A Comparative Reliability and Performance Study of Different Stent Designs in Terms of Mechanical Properties: Foreshortening, Recoil, Radial Force, and Flexibility [J] . Artificial Organs . 2013,第4期

机译：在机械特性方面，对不同支架设计的可靠性和性能进行比较研究：缩短，后坐力，径向力和柔韧性
2. Suggestion of potential stent design parameters to reduce restenosis risk driven by foreshortening or dogboning due to non-uniform balloon-stent expansion. [J] . Lim D, Cho SK, Park WP, Annals of Biomedical Engineering: The Journal of the Biomedical Engineering Society . 2008,第7期

机译：建议使用潜在的支架设计参数，以减少由于不均匀的球囊支架扩张而缩短或缠结驱动的再狭窄风险。
3. Suggestion of Potential Stent Design Parameters to Reduce Restenosis Risk driven by Foreshortening or Dogboning due to Non-uniform Balloon-Stent Expansion [J] . Dohyung Lim, Seung-Kwan Cho, Won-Pil Park, Annals of Biomedical Engineering . 2008,第7期

机译：建议使用潜在的支架设计参数，以减少由于球囊支架扩张不均匀而导致的缩短或缠骨引起的再狭窄风险
4. Parametric Design and Finite Element Simulation of Coronary Stents [C] . Samaneh Tayyebi, Sara Ghasemi, Mahsa Mokhlesabadi, National Conference on Biomedical Engineering;International Iranian Conference on Biomedical Engineering . 2020

机译：冠状动用支架的参数设计与有限元模拟
5. Development of asymmetric stent designs, and, Validation through finite element analysis simulations. [D] . Desai, Malhar. 2006

机译：开发不对称支架设计，并通过有限元分析仿真进行验证。
6. Multi-parametric study of temperature and thermal damage of tumor exposed to high-frequency nanosecond-pulsed electric fields based on finite element simulation [O] . Yan Mi, Shaoqin Rui, Chengxiang Li, -1

机译：基于有限元仿真的高频纳秒脉冲电场对肿瘤温度和热损伤的多参数研究
7. Effect of Stent Radial Force on Stress Pattern After Deployment: A Finite Element Study [O] . Alessandro Borghi, Olive Murphy, Reza Bahmanyar, 2014

机译：支架径向力对部署后应力模式的影响：有限元研究

Finite element simulation and testing of cobalt-chromium stent: a parametric study on radial strength, recoil, foreshortening, and dogboning

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