Addiction-related brain networks identification via Graph Diffusion Reconstruction Network.

Q1 Computer Science Brain Informatics Pub Date : 2024-01-08 DOI:10.1186/s40708-023-00216-5

Changhong Jing, Hongzhi Kuai, Hiroki Matsumoto, Tomoharu Yamaguchi, Iman Yi Liao, Shuqiang Wang

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引用次数: 0

Abstract

Functional magnetic resonance imaging (fMRI) provides insights into complex patterns of brain functional changes, making it a valuable tool for exploring addiction-related brain connectivity. However, effectively extracting addiction-related brain connectivity from fMRI data remains challenging due to the intricate and non-linear nature of brain connections. Therefore, this paper proposed the Graph Diffusion Reconstruction Network (GDRN), a novel framework designed to capture addiction-related brain connectivity from fMRI data acquired from addicted rats. The proposed GDRN incorporates a diffusion reconstruction module that effectively maintains the unity of data distribution by reconstructing the training samples, thereby enhancing the model's ability to reconstruct nicotine addiction-related brain networks. Experimental evaluations conducted on a nicotine addiction rat dataset demonstrate that the proposed GDRN effectively explores nicotine addiction-related brain connectivity. The findings suggest that the GDRN holds promise for uncovering and understanding the complex neural mechanisms underlying addiction using fMRI data.

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通过图形扩散重构网络识别与成瘾有关的大脑网络。

功能性磁共振成像（fMRI）能让人深入了解大脑功能变化的复杂模式，因此是探索成瘾相关大脑连接性的重要工具。然而，由于大脑连接的复杂性和非线性，从 fMRI 数据中有效提取与成瘾相关的大脑连接仍然具有挑战性。因此，本文提出了图形扩散重构网络（GDRN），这是一个新颖的框架，旨在从成瘾大鼠获取的 fMRI 数据中捕捉成瘾相关的大脑连接性。本文提出的图形扩散重构网络（GDRN）包含一个扩散重构模块，该模块通过重构训练样本有效地保持了数据分布的统一性，从而提高了模型重构尼古丁成瘾相关脑网络的能力。在尼古丁成瘾大鼠数据集上进行的实验评估表明，所提出的 GDRN 能有效探索尼古丁成瘾相关的大脑连接性。研究结果表明，GDRN有望利用fMRI数据揭示和理解成瘾的复杂神经机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Brain Informatics Computer Science-Computer Science Applications

CiteScore

9.50

自引率

0.00%

发文量

审稿时长

13 weeks

期刊介绍： Brain Informatics is an international, peer-reviewed, interdisciplinary open-access journal published under the brand SpringerOpen, which provides a unique platform for researchers and practitioners to disseminate original research on computational and informatics technologies related to brain. This journal addresses the computational, cognitive, physiological, biological, physical, ecological and social perspectives of brain informatics. It also welcomes emerging information technologies and advanced neuro-imaging technologies, such as big data analytics and interactive knowledge discovery related to various large-scale brain studies and their applications. This journal will publish high-quality original research papers, brief reports and critical reviews in all theoretical, technological, clinical and interdisciplinary studies that make up the field of brain informatics and its applications in brain-machine intelligence, brain-inspired intelligent systems, mental health and brain disorders, etc. The scope of papers includes the following five tracks: Track 1: Cognitive and Computational Foundations of Brain Science Track 2: Human Information Processing Systems Track 3: Brain Big Data Analytics, Curation and Management Track 4: Informatics Paradigms for Brain and Mental Health Research Track 5: Brain-Machine Intelligence and Brain-Inspired Computing