Computational evaluation of inferior vena cava filters through computational fluid dynamics methods

机译：通过计算流体动力学方法计算下腔静脉滤波器的计算评估

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摘要

Numerical simulation is growing in its importance toward the design, testing and evaluation of medical devices. Computational fluid dynamics and finite element analysis allow improved calculation of stress, heat transfer, and flow to better understand the medical device environment. Current research focuses not only on improving medical devices, but also on improving the computational tools themselves. As methods and computer technology allow for faster simulation times, iterations and trials can be performed faster to collect more data. Given the adverse events associated with long-term inferior vena cava (IVC) filter placement, IVC filter design and device evaluation are of paramount importance. This work reviews computational methods used to develop, test, and improve IVC filters to ultimately serve the needs of the patient.

机译：数值模拟在医疗器械的设计，测试和评估的重要性中越来越重要。计算流体动力学和有限元分析允许改善压力，传热和流量的计算，以更好地了解医疗器械环境。目前的研究不仅重点侧重于改善医疗器械，还侧重于改善计算工具本身。由于方法和计算机技术允许更快的模拟时间，可以更快地进行迭代和试验以收集更多数据。鉴于与长期下腔静脉（IVC）过滤器放置相关的不良事件，IVC滤波器设计和设备评估是至关重要的。这项工作审查了用于开发，测试和改进IVC过滤器的计算方法，最终满足患者的需求。

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期刊名称 Diagnostic and Interventional Radiology
作者
Anand Rajan; Mina S. Makary; Thomas D. Martyn; Joshua D. Dowell;
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年(卷),期 2021(27),1
年度 2021
页码 116–121
总页数 6
原文格式 PDF
正文语种
中图分类放射医学;影像诊断学;
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专利

1. Inferior Vena Cava Filter Evaluation and Management for the Diagnostic Radiologist: A Comprehensive Review Including Inferior Vena Cava Filter-Related Complications and PRESERVE Trial Filters [J] . Ahmed Osman, Sheikh Shermeen, Tran Patrick, Canadian Association of Radiologists journal . 2019,第4期

机译：诊断放射科学家的较差的腔静脉滤波器评估和管理：全面的审查，包括较低的VENA CATH过滤器相关的并发症和保留试验过滤器
2. Steady Flow in a Patient-Averaged Inferior Vena Cava—Part II: Computational Fluid Dynamics Verification and Validation [J] . Brent A. Craven, Kenneth I. Aycock, Keefe B. Manning Cardiovascular engineering and technology . 2018,第4期

机译：患者平均下腔静脉部分II中的稳定流动：计算流体动力学验证和验证
3. Re: toward an optimal position for inferior vena cava filters: computational modeling of the impact of renal vein inflow with the Celect and TrapEase Filters. [J] . Requarth JA Journal of vascular and interventional radiology: JVIR . 2011,第1期

机译：回复：下腔静脉滤器的最佳位置：使用Celect和TrapEase滤器对肾静脉流入的影响进行计算建模。
4. The design by computational methods of a safety helmet for racing car drivers: computational fluid dynamics for external aerodynamics [C] . Sarah J. Wakes, Richard Palmer, Maurice G. Armstrong ASME Pressure Vessels and Piping Conference . 2001

机译：赛车司机安全头盔的计算方法设计：外部空气动力学的计算流体动力学
5. Assessment of native aortic stenosis hemodynamics and clinical evaluation methods using steady state computational fluid dynamics and computed tomography-derived geometry. [D] . Traeger, Brad James. 2012

机译：评估自然主动脉瓣狭窄血流动力学和临床评估方法，使用稳态计算流体动力学和计算机断层扫描衍生的几何形状。
6. Hemodynamic Analysis of VenaTech Convertible Vena Cava Filter Using Computational Fluid Dynamics [O] . Jingying Wang, Wen Huang, Yue Zhou, 2020

机译：使用计算流体动力学的Venatech敞篷腔静脉滤波器血流动力学分析
7. A Computational Method for Predicting Inferior Vena Cava Filter Performance on a Patient-Specific Basis [O] . Kenneth I Aycock, Keefe Manning, Shankar Sastry, 2016

机译：一种预测患者特异性基础上下腔静脉滤器性能的计算方法
8. Computational Modeling of Blood Flow in the TrapEase Inferior Vena Cava Filter. Journal of Vascular and Interventional Radiology [R] . Singer, M. A., Henshaw, W. D., Wang, S. L. 2008

机译：TrapEase下腔静脉滤器血流计算模型。血管与介入放射学杂志

Computational evaluation of inferior vena cava filters through computational fluid dynamics methods

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