基于改进U-net模型的人脑海马区分割

Chulan Ren, Ning Wang, Yang Zhang
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引用次数: 2

摘要

MRI海马分割对神经精神疾病的诊断、治疗决策和研究具有重要意义。手工分割海马非常耗时,重复性低。随着深度学习的发展,这方面已经取得了很大的进展。本文选择U-net模型实现海马的自动分割,并在U-net分割网络中加入残差模块,加快网络收敛速度。针对大脑MRI图像中海马边缘模糊、形状不规则、体积小等特点,采用拉普拉斯算法对原始图像进行锐化和滤波,使大脑图像的细节和边缘更加清晰。增强后的图像可以有效地提高分割效果。最后,测试集上的Dice系数达到90.14%。实验结果表明,预处理后的图像使用该分割模型可以实现对大脑MRI中海马的准确分割,可以帮助医生更好地进行诊断。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Human Brain Hippocampus Segmentation Based on Improved U-net Model
The hippocampus segmentation in MRI is of great significance for the diagnosis, treatment decision and research of neuropsychiatric diseases. Manual segmentation of the hippocampus is very time-consuming and has low repeatability. With the development of deep learning, great progress has been brought about in this regard. In this paper, the U-net model is selected to realize the automatic segmentation of the hippocampus, and the residual module is added to the U-net segmentation network to speed up the network convergence. Aiming at the characteristics of the hippocampus in the brain MRI image such as blurry edges, irregular shapes, and small size, the Laplacian algorithm is used to sharpen and filter the original image to make the details and edges of the brain image clearer. The enhanced picture can effectively improve the segmentation effect. Finally, the Dice coefficient on the test set reached 90.14%.The experimental results show that the pre-processed images use this segmentation model to achieve accurate segmentation of the hippocampus in the brain MRI, which can assist doctors in better diagnosis.
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