PCcS-RAU-Net: Automated parcellated Corpus callosum segmentation from brain MRI images using modified residual attention U-Net

IF 5.3 2区 医学 Q1 ENGINEERING, BIOMEDICAL
Anjali Chandra , Shrish Verma , A.S. Raghuvanshi , Narendra Kuber Bodhey
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引用次数: 1

Abstract

Background

The Corpus callosum (Cc) in the cerebral cortex is a bundle of neural fibers that facilitates inter-hemispheric communication. The Cc area and area of its sub-regions (also known as parcels) have been examined as a biomarker for cortical pathology and differential diagnosis in neurodegenerative diseases such as Autism, Alzheimer’s disease (AD), and more. Manual segmentation and parcellation of Cc are laborious and time-consuming. The present work proposes a novel work of automated parcellated Cc (PCc) segmentation that will serve as a potential biomarker to study and diagnose neurological disorders in brain MRI images.

Method

In this perspective, the present work aims to develop an automated PCc segmentation from mid-sagittal T1- weighted (w) 2D brain MRI images using a deep learning-based fully convolutional network, a modified residual attention U-Net, referred to as PCcS-RAU-Net. The model has been modified to use a multi-class segmentation configuration with five target classes (parcels): rostrum, genu, mid-body, isthmus and splenium.

Results

The experimental research uses two benchmark MRI datasets, ABIDE and OASIS. The proposed PCcS-RAU-Net outperformed existing methods on the ABIDE dataset with a DSC of 97.10% and MIoU of 94.43%. Furthermore, the model's performance is validated on the OASIS and Real clinical image (RCI) data and hence verifies the model’s generalization capability.

Conclusion

The proposed PCcS-RAU-Net model extracts essential characteristics such as the total area of the Cc (TCcA) to categorize MRI slices into healthy controls (HC) and disease groups. Also, sub-regional areas, Cc1A to Cc5A, help study atrophy progression for early diagnosis.

PCcS-RAU-Net:利用改进的残余注意U-Net从脑MRI图像中自动分割胼胝体
大脑皮层的胼胝体(Cc)是一束神经纤维,促进大脑半球间的交流。Cc区域及其子区域(也称为包裹)已被作为神经退行性疾病(如自闭症、阿尔茨海默病(AD)等)的皮质病理和鉴别诊断的生物标志物进行研究。手工分割和分割Cc是费力和耗时的。本研究提出了一种新的自动包裹Cc (PCc)分割方法,该方法将作为一种潜在的生物标志物,用于研究和诊断脑MRI图像中的神经系统疾病。从这个角度来看,本研究旨在利用基于深度学习的全卷积网络,即改进的剩余注意U-Net,开发一种从中矢状T1加权(w) 2D脑MRI图像中自动分割PCc的方法,简称pccs - rao - net。该模型已被修改为使用5个目标类别(包)的多类别分割配置:讲台,膝,中体,峡部和脾。结果实验研究使用了两个基准的MRI数据集,分别是ABIDE和OASIS。本文提出的PCcS-RAU-Net在ABIDE数据集上的DSC为97.10%,MIoU为94.43%,优于现有方法。在OASIS和Real clinical image (RCI)数据上验证了模型的性能,从而验证了模型的泛化能力。结论提出的PCcS-RAU-Net模型提取Cc总面积(TCcA)等基本特征,将MRI切片分为健康对照组(HC)和疾病组。此外,Cc1A至Cc5A的亚区域有助于研究萎缩的进展,以进行早期诊断。
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来源期刊
CiteScore
16.50
自引率
6.20%
发文量
77
审稿时长
38 days
期刊介绍: Biocybernetics and Biomedical Engineering is a quarterly journal, founded in 1981, devoted to publishing the results of original, innovative and creative research investigations in the field of Biocybernetics and biomedical engineering, which bridges mathematical, physical, chemical and engineering methods and technology to analyse physiological processes in living organisms as well as to develop methods, devices and systems used in biology and medicine, mainly in medical diagnosis, monitoring systems and therapy. The Journal''s mission is to advance scientific discovery into new or improved standards of care, and promotion a wide-ranging exchange between science and its application to humans.
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