In vitro simulator with numerical stress analysis for evaluation of stent-assisted coiling embolization in cerebral aneurysm treatments.

Chaoyang Shi, Masahiro Kojima, Carlos Tercero, Zoran Najdovski, Seiichi Ikeda, Toshio Fukuda, Fumihito Arai, Makoto Negoro
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引用次数: 3

Abstract

Background: There are several complications associated with Stent-assisted Coil Embolization (SACE) in cerebral aneurysm treatments, due to damaging operations by surgeons and undesirable mechanical properties of stents. Therefore, it is necessary to develop an in vitro simulator that provides both training and research for evaluating the mechanical properties of stents.

Methods: A new in vitro simulator for three-dimensional digital subtraction angiography was constructed, followed by aneurysm models fabricated with new materials. Next, this platform was used to provide training and to conduct photoelastic stress analysis to evaluate the SACE technique.

Results: The average interaction stress increasingly varied for the two different stents. Improvements for the Maximum-Likelihood Expectation-Maximization method were developed to reconstruct cross-sections with both thickness and stress information.

Conclusions: The technique presented can improve a surgeon's skills and quantify the performance of stents to improve mechanical design and classification. This method can contribute to three-dimensional stress and volume variation evaluation and assess a surgeon's skills.

体外模拟数值应力分析评估支架辅助螺旋栓塞在脑动脉瘤治疗中的应用。
背景:在脑动脉瘤治疗中支架辅助线圈栓塞术(SACE)有一些并发症,由于外科医生的破坏性操作和支架不理想的机械性能。因此,有必要开发一种既能训练又能研究评估支架力学性能的体外模拟器。方法:构建三维数字减影血管造影术体外模拟器,并用新材料制作动脉瘤模型。接下来,利用该平台进行培训和光弹性应力分析,对SACE技术进行评估。结果:两种支架的平均相互作用应力差异越来越大。改进了最大似然期望-最大化方法,以重建具有厚度和应力信息的截面。结论:该技术可以提高外科医生的技术水平,量化支架的性能,以改进机械设计和分类。这种方法有助于三维应力和体积变化的评估和评估外科医生的技能。
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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CiteScore
5.30
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