In this work, the best size for late gadolinium enhancement (LGE) magnetic resonance imaging (MRI) images in the training dataset was determined to optimize deep learning training outcomes. Non-extra pixel and extra pixel interpolation algorithms were used to determine the new size of the LGE-MRI images. A novel strategy was introduced to handle interpolation masks and remove extra class labels in interpolated ground truth (GT) segmentation masks. The expectation maximization, weighted intensity, a priori information (EWA) algorithm was used for quantification of myocardial infarction (MI) in automatically segmented LGE-MRI images. Arbitrary threshold, comparison of the sums, and sums of differences are methods used to estimate the relationship between semi-automatic or manual and fully automated quantification of myocardial infarction (MI) results. The relationship between semi-automatic and fully automated quantification of MI results was found to be closer in the case of bigger LGE MRI images (55.5% closer to manual results) than in the case of smaller LGE MRI images (22.2% closer to manual results).
翻译:在这项工作中,为优化深层学习培训结果,确定了培训数据集中迟到的 ⁇ 增强磁共振成像(LGE)磁共振成像(MRI)图像的最佳尺寸,以优化深层学习培训结果。使用非Extra像素和额外的像素内插算法来确定LGE-MRI图像的新尺寸。采用了一种新颖的战略来处理内插遮罩,并去除内插地面真相分解面(GT)中外类标签。在LGE MRI图像中,预期最大化、加权强度、先验信息(EWA)算法用于对心肌梗塞的量化(MI),在LGE MRI图像中,任意阈值、数字的比较和差异的总数是用来估计半自动或手动与完全自动的心肌内射成像(MI)结果之间的关系的方法。在更大的LGE MRI图像中,半自动和完全自动计量MI结果之间的关系(55.5%接近手动结果)比小的LGE MRI图像(22.2%接近手动结果)更为密切。
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