用于微生物组数据分析的预训练引导条件扩散模型

Xinyuan Shi, Fangfang Zhu, Wenwen Min
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引用次数: 0

摘要

新的证据表明,人类癌症与人类微生物组之间存在着密不可分的联系。然而,由于样本量有限以及在收集过程中由于各种原因造成的大量数据丢失,人们提出了一些机器学习方法来解决数据丢失的问题。这些方法没有充分利用已知的患者临床信息来提高数据估算的准确性。因此,我们引入了mbVDiT--一种新型的预训练条件扩散模型,用于微生物组数据的估算和去噪。它还使用 VAE 整合其他公共微生物组数据集,以提高模型性能。对三种不同癌症类型的微生物组数据集的研究结果表明,与现有方法相比,我们的方法性能更佳。
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Pretrained-Guided Conditional Diffusion Models for Microbiome Data Analysis
Emerging evidence indicates that human cancers are intricately linked to human microbiomes, forming an inseparable connection. However, due to limited sample sizes and significant data loss during collection for various reasons, some machine learning methods have been proposed to address the issue of missing data. These methods have not fully utilized the known clinical information of patients to enhance the accuracy of data imputation. Therefore, we introduce mbVDiT, a novel pre-trained conditional diffusion model for microbiome data imputation and denoising, which uses the unmasked data and patient metadata as conditional guidance for imputating missing values. It is also uses VAE to integrate the the other public microbiome datasets to enhance model performance. The results on the microbiome datasets from three different cancer types demonstrate the performance of our methods in comparison with existing methods.
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