UMMAN: Unsupervised Multi-graph Merge Adversarial Network for Disease Prediction Based on Intestinal Flora

Dingkun Liu, Hongjie Zhou, Yilu Qu, Huimei Zhang, Yongdong Xu
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Abstract

The abundance of intestinal flora is closely related to human diseases, but diseases are not caused by a single gut microbe. Instead, they result from the complex interplay of numerous microbial entities. This intricate and implicit connection among gut microbes poses a significant challenge for disease prediction using abundance information from OTU data. Recently, several methods have shown potential in predicting corresponding diseases. However, these methods fail to learn the inner association among gut microbes from different hosts, leading to unsatisfactory performance. In this paper, we present a novel architecture, Unsupervised Multi-graph Merge Adversarial Network (UMMAN). UMMAN can obtain the embeddings of nodes in the Multi-Graph in an unsupervised scenario, so that it helps learn the multiplex association. Our method is the first to combine Graph Neural Network with the task of intestinal flora disease prediction. We employ complex relation-types to construct the Original-Graph and disrupt the relationships among nodes to generate corresponding Shuffled-Graph. We introduce the Node Feature Global Integration (NFGI) module to represent the global features of the graph. Furthermore, we design a joint loss comprising adversarial loss and hybrid attention loss to ensure that the real graph embedding aligns closely with the Original-Graph and diverges from the Shuffled-Graph. Comprehensive experiments on five classical OTU gut microbiome datasets demonstrate the effectiveness and stability of our method. (We will release our code soon.)
UMMAN:基于肠道菌群的疾病预测无监督多图合并对抗网络
肠道菌群的丰富程度与人类疾病密切相关,但疾病并非由单一的肠道微生物引起。相反,它们是由众多微生物实体的复杂相互作用造成的。肠道微生物之间这种错综复杂的隐性联系给利用 OTU 数据中的丰度信息进行疾病预测带来了巨大挑战。最近,有几种方法显示出预测相应疾病的潜力。然而,这些方法无法学习来自不同宿主的肠道微生物之间的内在联系,导致效果不尽如人意。本文提出了一种新型架构--无监督多图合并对抗网络(UMMAN)。UMMAN 可以在无监督的情况下获得多图中节点的嵌入,从而帮助学习多图关联。我们的方法首次将图神经网络与肠道菌群疾病预测任务相结合。我们采用复杂的关系类型来构建原始图,并破坏节点之间的关系来生成相应的修剪图。我们引入节点特征全局集成(NFGI)模块来表示图的全局特征。此外,我们还设计了一种由对抗损失和混合注意力损失组成的联合损失,以确保最终的图嵌入与原始图紧密一致,而与洗牌图相去甚远。五个经典 OTU 肠道微生物组数据集的综合实验证明了我们方法的有效性和稳定性。
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