Silicone rubber trileaflet valve assessment using cardiovascular magnetic resonance imaging

机译：使用心血管磁共振成像评估硅橡胶三叶瓣

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Hydrodynamic valve performance is usually evaluated by effective orifice area (EOA), geometric orifice area (GOA) and transvalvular pressure gradients (PG). Magnetic resonance imaging (MRI) is a very efficient tool for assessing these parameters. In this study, we evaluated a silicone rubber trileaflet valve using MRI. EOA, GOA and PG were evaluated under steady (12 l/min – 20 l/min) and pulsatile (5 l/min) flow conditions using continuity equation, planimetry and simplified Bernoulli''s equation respectively; the contraction coefficient (Cc) and Reynolds number (Re) were also evaluated as hydrodynamic parameters. The highest EOAs were 0.75 cm² for steady flow conditions and 0.98 cm² for pulsatile flow. For pulsatile flow conditions greater GOA by planimetry was 1.43 cm². For both flow conditions the highest PGs were > 40 mmHg. Cc was on range from 0.8 to 0.86 under steady flow conditions and 0.68 for pulsatile flow at peak sytole. The Re was much greater than 2200 for all flow conditions. This study allowed the non invasive evaluation of a silicone rubber trileaflet valve under steady and pulsatile conditions with MRI in order to understand valve opening.

机译：流体动力阀的性能通常通过有效孔口面积（EOA），几何孔口面积（GOA）和跨瓣压力梯度（PG）进行评估。磁共振成像（MRI）是评估这些参数的非常有效的工具。在这项研究中，我们使用MRI评估了硅橡胶三角叶瓣膜。分别使用连续性方程，平面测量法和简化的伯努利方程，分别在稳定流量（12 l / min – 20 l / min）和脉动流量（5 l / min）下评估EOA，GOA和PG;收缩系数（Cc）和雷诺数（Re）也作为流体力学参数进行了评估。对于稳定流量条件，最高EOAs为0.75 cm ^{2 ，对于脉动流量为0.98 cm ^{2 。对于脉动流动条件，通过平面法测得的更大的GOA为1.43 cm ^{2 。对于这两种流动条件，最高PG均> 40 mmHg。在稳定流量条件下，Cc在0.8到0.86的范围内，在峰值峰值时脉动流的Cc在0.68的范围内。在所有流量条件下，Re都远大于2200。这项研究允许在稳定和搏动条件下使用MRI对硅橡胶三叶瓣进行无创评估，以了解瓣膜的开度。}}}

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《32nd Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2010年|p.5169-5172|共4页
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Garcia Julio; Kadem Lyes; Pibarot Philippe;
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中图分类生物工程学（生物技术）;
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4. Silicone rubber trileaflet valve assessment using cardiovascular magnetic resonance imaging [C] . Garcia Julio, Kadem Lyes, Pibarot Philippe 32nd Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2010

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Silicone rubber trileaflet valve assessment using cardiovascular magnetic resonance imaging

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