Hamza Raki, K. Tse Ve Koon, H. Souchay, F. Robb, O. Beuf
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引用次数: 0
摘要
为了提高MR腔内结肠壁成像水平,对不同构型的单层、双层和双匝腔内线圈几何形状进行了电磁模拟。事实上,在结肠导航过程中,线圈方向相对于B0的变化必然会发生,由于信号均匀性的丧失,导致图像采集受损。在这项工作中,选择了导航过程中遇到的三种典型线圈方向,并通过模拟b1 x, y / I R t值来研究不同几何形状的信号均匀性。在半径为r的圆上对这个数量进行采样,使我们能够计算出给定距离的变异系数(=标准差/平均值)。对r∈5重复此过程;15mm,代表结肠的目标区域。我们的研究结果表明,单回路和双层几何结构可以为改善信号均匀性提供互补的解决方案。最后,利用四个微机电系统开关,我们提出了一种可重构腔内线圈的设计,能够在这两种几何形状之间切换,同时确保腔内线圈在MR实验的射频传输过程中主动去耦。
Electromagnetic Simulation of Signal Distribution of Various RF Endoluminal Loop Geometries with Coil Orientation: Towards a Reconfigurable Design
With the objective of improving MR endoluminal imaging of the colonic wall, electromagnetic simulations of different configurations of single-layer and double-layer, and double-turn endoluminal coil geometries were run. Indeed, during colon navigation, variations in coil orientation with respect to B0 are bound to occur, leading to impaired image acquisition due to a loss of signal uniformity. In this work, three typical coil orientations encountered during navigation were chosen and the resulting signal uniformity of the different geometries was investigated through the simulated
B
1
x
,
y
/
I
R
t
values. Sampling this quantity over a circle of radius r enabled us to calculate the coefficient of variation (= standard deviation/mean) for this given distance. This procedure was repeated for
r
∈
5
;
15
mm, which represents the region of interest in the colon. Our results show that single-loop and double-layer geometries could provide complementary solutions for improved signal uniformity. Finally, using four microelectromechanical system switches, we proposed the design of a reconfigurable endoluminal coil able to switch between those two geometries while also ensuring the active decoupling of the endoluminal coil during the RF transmission of an MR experiment.
期刊介绍:
Concepts in Magnetic Resonance Part B brings together engineers and physicists involved in the design and development of hardware and software employed in magnetic resonance techniques. The journal welcomes contributions predominantly from the fields of magnetic resonance imaging (MRI), nuclear magnetic resonance (NMR), and electron paramagnetic resonance (EPR), but also encourages submissions relating to less common magnetic resonance imaging and analytical methods.
Contributors come from both academia and industry, to report the latest advancements in the development of instrumentation and computer programming to underpin medical, non-medical, and analytical magnetic resonance techniques.