A hybrid (hydro-numerical) circulatory model: investigations of mechanical aortic valves and a numerical valve model

M. Kozarski Na??cz Institute of Biocybernetics and Biomedical Engineering Polish Academy of Sciences 4 Ks. Trojdena St. 02-109 Warsaw PolandOther articles by this author:De Gruyter OnlineGoogle Scholar; P. Suwalski Department of Cardiac Surgery Central Teaching Hospital Ministry of Interior 137 Wo?oska St. 02-507 Warsaw Poland Kazimierz Pu?aski University of Technology and Humanities 29 Malczewskiego St. 26-600 Radom PolandOther articles by this author:De Gruyter OnlineGoogle Scholar; K. Zieli?ski Na??cz Institute of Biocybernetics and Biomedical Engineering Polish Academy of Sciences 4 Ks. Trojdena St. 02-109 Warsaw PolandOther articles by this author:De Gruyter OnlineGoogle Scholar; K. Górczy?ska Na??cz Institute of Biocybernetics and Biomedical Engineering Polish Academy of Sciences 4 Ks. Trojdena St. 02-109 Warsaw PolandOther articles by this author:De Gruyter OnlineGoogle Scholar; B. Szafron Department of Cardiac Surgery Central Teaching Hospital Ministry of Interior 137 Wo?oska St. 02-507 Warsaw PolandOther articles by this author:De Gruyter OnlineGoogle Scholar; K.J. Pa?koCorresponding author Na??cz Institute of Biocybernetics and Biomedical Engineering Polish Academy of Sciences 4 Ks. Trojdena St. 02-109 Warsaw PolandEmailOther articles by this author:De Gruyter OnlineGoogle Scholar; R. Smoczy?ski Department of Cardiac Surgery Central Teaching Hospital Ministry of Interior 137 Wo?oska St. 02-507 Warsaw PolandOther articles by this author:De Gruyter OnlineGoogle Scholar; M. Darowski Na??cz Institute of Biocybernetics and Biomedical Engineering Polish Academy of Sciences 4 Ks. Trojdena St. 02-109 Warsaw PolandOther articles by this author:De Gruyter OnlineGoogle Scholar

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A hybrid (hydro-numerical) circulatory model: investigations of mechanical aortic valves and a numerical valve model

机译：混合（水数字）循环模型：机械主动脉瓣和数字瓣膜模型的研究

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In most cases of diseased heart valves, they can be repaired or replaced with biological or mechanical prostheses. Biological prostheses seem to be safer than mechanical ones and are applied with good clinical outcomes. Their disadvantage, when compared with mechanical valves, is durability. In the development and application of mechanical and biological heart valves, a significant role can be played by a Hybrid (Hydro-Numerical) Circulatory Model. The aim of this paper is to demonstrate the opportunities created by the hybrid model for investigations of mechanical heart valves and their computer models under conditions similar to those of the circulatory system. A diode-resistor numerical valve model and three different design mechanical aortic valves were tested. To perform their investigations, computer applications were developed under RT LabView to be run on a PC. Static and dynamic characteristics of the valves were measured and registered - pressure in the numerical time-varying elastance left ventricle (pLV), in the aorta (pas) and flow (f), proving, among other factors, that 1) time delay of pas with respect to pLV is mainly related to the valve’s opening time, and 2) the valves of substantially different designs tested under identical hydrodynamic conditions reveal nearly the same dynamic performance.

机译：在大多数患心脏瓣膜的情况下，可以用生物或机械假体对其进行修复或更换。生物假肢似乎比机械假肢更安全，并得到了良好的临床效果。与机械阀相比，它们的缺点是耐用性。在机械和生物心脏瓣膜的开发和应用中，混合（水数字）循环模型可以发挥重要作用。本文的目的是演示在类似于循环系统的条件下，混合模型为机械心脏瓣膜及其计算机模型研究提供的机会。测试了二极管电阻数值阀模型和三种不同设计的机械主动脉阀。为了进行调查，在RT LabView下开发了计算机应用程序，以便在PC上运行。测量并记录瓣膜的静态和动态特性-左心室时变弹性数（pLV），主动脉（pas）和流量（f）中的压力，证明（1）延迟时间。相对于pLV的pas主要与阀门的开启时间有关，并且2）在相同的流体动力条件下测试的实质上不同设计的阀门显示出几乎相同的动态性能。

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1. A hybrid (hydro-numerical) circulatory model: investigations of mechanical aortic valves and a numerical valve model [J] . Kozarski M., Suwalski P., Zielinski K., Bulletin of the Polish Academy of Sciences. Technical Sciences . 2015,第3期

机译：混合（水数字）循环模型：机械主动脉瓣和数字瓣膜模型的研究
2. A hybrid (hydro-numerical) circulatory model: investigations of mechanical aortic valves and a numerical valve model [J] . B. Szafron, K. Górczyńska, K. Zieliński, Bulletin of the Polish Academy of Sciences. Technical Sciences . 2015,第3期

机译：混合（水数字）循环模型：机械主动脉瓣和数字瓣膜模型的研究
3. Balloon aortic valvuloplasty under temporary mechanical circulatory support as a bridge to aortic valve replacement in a patient with hemodynamic failure secondary to critical aortic valve stenosis. [J] . Salil Deo, Kevin L Greason, Rajiv Gulati, The heart surgery forum . 2012,第3期

机译：暂时性机械循环支持下的球囊主动脉瓣膜成形术，是继发于严重主动脉瓣狭窄的血流动力学衰竭患者主动脉瓣置换的桥梁。
4. PATIENT-SPECIFIC VALVE DYNAMICS USING 3D FLUID-STRUCTURE INTERACTION MODELING: COMPARISON BETWEEN BICUSPID AND TRISCUSPID AORTIC VALVES [C] . V. Govindarajan, J. Mousel, S.C. Vigmostad, ASME bioengineering conference . 2014

机译：使用3D流体结构相互作用建模的患者特定瓣膜动力学：双主动脉瓣和三尖瓣主动脉瓣之间的比较
5. Incorporating the aortic valve into computational fluid dynamics models using phase-contrast MRI and valve tracking [D] . Wendell, David C. 2011

机译：使用相衬MRI和瓣膜跟踪将主动脉瓣纳入计算流体动力学模型
6. Numerical models for assessing the risk of leaflet thrombosis post-transcatheter aortic valve-in-valve implantation [O] . Romina Plitman Mayo, Halit Yaakobovich, Ariel Finkelstein, 2020

机译：用于评估传导管主动脉瓣膜内瓣膜内植入传单血栓形成风险的数值模型
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机译：经导管主动脉瓣植入术中生物力学相互作用的患者特异性有限元模型。

A hybrid (hydro-numerical) circulatory model: investigations of mechanical aortic valves and a numerical valve model

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