基本解方法中的空间重标尺改进了ECGI重构

Pauline Migerditichan, M. Potse, N. Zemzemi
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引用次数: 0

摘要

基本解法(MFS)已广泛应用于心电图成像(ECGI)反问题的求解。它的优点之一是它是一种无网格方法。我们注意到使用cm代替mm作为空间单位对重构逆解有很大的影响。我们的目的是通过在空间中引入一个重标系数来改进这一观察结果,并研究其对MFS逆解的影响。使用反应扩散模型制备的模拟试验数据提供了结果。然后,我们计算了ECGI在1 ~ 100范围内重标系数值的逆解,并计算了相对误差(RE)和相关系数(CC)。这种方法将RE和CC提高了至少10%,但独立于起搏位置可以提高40%。我们得出的结论是,最佳系数取决于躯干的异质性和各向异性,而不取决于刺激部位。这表明它与躯干域的最佳等效电导率估计有关。
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Space Rescaling in the Method of Fundamental Solution Improves the ECGI Reconstruction
The method of fundamental solutions (MFS) has been extensively used for the electrocardiographic imaging (ECGI) inverse problem. One of its advantages is that it is a meshless method. We remarked that the using cm instead of mm as a space unit has a high impact on the reconstructed inverse solution. Our purpose is to refine this observation, by introducing a rescaling coefficient in space and study its effect on the MFS inverse solution. Results are provided using simulated test data prepared using a reaction-diffusion model. We then computed the ECGI inverse solution for rescaling coefficient values varying from 1 to 100, and computed the relative error (RE) and correlation coefficient (CC). This approach improved the RE and CC by at least 10 % but can go up to 40 % independently of the pacing site. We concluded that the optimal coefficient depends on the heterogeneity and anisotropy of the torso and does not depend on the stimulation site. This suggests that it is related to an optimal equivalent conductivity estimation in the torso domain.
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