Autism Spectrum Disorder Detection by Hybrid Convolutional Recurrent Neural Networks from Structural and Resting State Functional MRI Images

Emel Koc, Habil Kalkan, S. Bilgen
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Abstract

This study aims to increase the accuracy of autism spectrum disorder (ASD) diagnosis based on cognitive and behavioral phenotypes through multiple neuroimaging modalities. We apply machine learning (ML) algorithms to classify ASD patients and healthy control (HC) participants using structural magnetic resonance imaging (s-MRI) together with resting state functional MRI (rs-f-MRI and f-MRI) data from the large multisite data repository ABIDE (autism brain imaging data exchange) and identify important brain connectivity features. The 2D f-MRI images were converted into 3D s-MRI images, and datasets were preprocessed using the Montreal Neurological Institute (MNI) atlas. The data were then denoised to remove any confounding factors. We show, by using three fusion strategies such as early fusion, late fusion, and cross fusion, that, in this implementation, hybrid convolutional recurrent neural networks achieve better performance in comparison to either convolutional neural networks (CNNs) or recurrent neural networks (RNNs). The proposed model classifies subjects as autistic or not according to how functional and anatomical connectivity metrics provide an overall diagnosis based on the autism diagnostic observation schedule (ADOS) standard. Our hybrid network achieved an accuracy of 96% by fusing s-MRI and f-MRI together, which outperforms the methods used in previous studies.
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通过混合卷积递归神经网络从结构和静息态功能磁共振成像检测自闭症谱系障碍
本研究旨在通过多种神经影像模式,提高基于认知和行为表型的自闭症谱系障碍(ASD)诊断的准确性。我们利用大型多站点数据存储库 ABIDE(自闭症脑成像数据交换)中的结构磁共振成像(s-MRI)和静息状态功能磁共振成像(rs-f-MRI 和 f-MRI)数据,应用机器学习(ML)算法对 ASD 患者和健康对照(HC)参与者进行分类,并识别重要的脑连接特征。二维 f-MRI 图像被转换成三维 s-MRI 图像,并使用蒙特利尔神经研究所(MNI)地图集对数据集进行预处理。然后对数据进行去噪处理,以去除任何干扰因素。我们通过使用三种融合策略(如早期融合、晚期融合和交叉融合)表明,在这种实现方法中,混合卷积递归神经网络与卷积神经网络(CNN)或递归神经网络(RNN)相比具有更好的性能。根据自闭症诊断观察表(ADOS)的标准,功能和解剖连接指标可提供整体诊断结果,而所提出的模型可根据这些指标将受试者划分为自闭症与否。我们的混合网络将s-MRI和f-MRI融合在一起,准确率达到96%,优于以往研究中使用的方法。
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审稿时长
21 weeks
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