The Effect of Deep Learning-Based QSM Magnetic Resonance Imaging on the Subthalamic Nucleus.
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Abstract
In order to study the influence of quantitative magnetic susceptibility mapping (QSM) on them. A 2.5D Attention U-Net Network based on multiple input and multiple output, a method for segmenting RN, SN, and STN regions in high-resolution QSM images is proposed, and deep learning realizes accurate segmentation of deep nuclei in brain QSM images. Experimental results show data first cuts each layer of 0 100 case data, based on the image center, from 384βΓβ288 to the size of 128βΓβ128. Image combination: each layer of the image in the layer direction combines with two adjacent images into a 2.5D image, i.e., (Itβ-βm It; Itβ+βi), where It represents the layer i image. At this time, the size of the image changes from 128βΓβ128 to 128βΓβ128βΓβ3, in which 3 represents three consecutive layers of images. The SNR of SWP I to STN is twice that of SWI. The small deep gray matter nuclei (RN, SN, and STN) in QSM images of the brain and the pancreas with irregular shape and large individual differences in abdominal CT images can be automatically segmented.Copyright Β© 2021 Yuanqin Liu et al.