DecGAN: Decoupling Generative Adversarial Network for Detecting Abnormal Neural Circuits in Alzheimer's Disease

Junren Pan;Qiankun Zuo;Bingchuan Wang;C.L. Philip Chen;Baiying Lei;Shuqiang Wang
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Abstract

One of the main reasons for Alzheimer's disease (AD) is the disorder of some neural circuits. Existing methods for AD prediction have achieved great success, however, detecting abnormal neural circuits from the perspective of brain networks is still a big challenge. In this work, a novel decoupling generative adversarial network (DecGAN) is proposed to detect abnormal neural circuits for AD. Concretely, a decoupling module is designed to decompose a brain network into two parts: one part is composed of a few sparse graphs that represent the neural circuits largely determining the development of AD; the other part is a supplement graph, whose influence on AD can be ignored. Furthermore, the adversarial strategy is utilized to guide the decoupling module to extract the feature more related to AD. Meanwhile, by encoding the detected neural circuits to hypergraph data, an analytic module associated with the hyperedge neurons algorithm is designed to identify the neural circuits. More importantly, a novel sparse capacity loss based on the spatial-spectral hypergraph similarity is developed to minimize the intrinsic topological distribution of neural circuits, which can significantly improve the accuracy and robustness of the proposed model. Experimental results demonstrate that the proposed model can effectively detect the abnormal neural circuits at different stages of AD, which is helpful for pathological study and early treatment.
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DecGAN:用于检测阿尔茨海默病异常神经回路的解耦生成对抗网络
阿尔茨海默病(AD)的主要原因之一是某些神经回路的紊乱。现有的阿尔茨海默病预测方法取得了巨大成功,但从大脑网络的角度检测异常神经回路仍是一大挑战。本研究提出了一种新型解耦生成对抗网络(DecGAN)来检测 AD 的异常神经回路。具体来说,设计了一个解耦模块,将大脑网络分解为两部分:一部分由一些稀疏图组成,这些稀疏图代表了在很大程度上决定注意力缺失症发展的神经回路;另一部分是补充图,这些补充图对注意力缺失症的影响可以忽略不计。此外,还利用对抗策略引导解耦模块提取与注意力缺失症更相关的特征。同时,通过将检测到的神经回路编码为超图数据,设计了一个与超edge 神经元算法相关的分析模块来识别神经回路。更重要的是,基于空间-光谱超图相似性开发了一种新的稀疏容量损失,以最小化神经回路的内在拓扑分布,从而显著提高了所提模型的准确性和鲁棒性。实验结果表明,所提出的模型能有效地检测出AD不同阶段的异常神经回路,有助于病理研究和早期治疗。
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