Microbial trend analysis for common dynamic trend, group comparison, and classification in longitudinal microbiome study

BMC Genomics. 2021 Sep 15;22(1):667. doi: 10.1186/s12864-021-07948-w.

Abstract

Background: The human microbiome is inherently dynamic and its dynamic nature plays a critical role in maintaining health and driving disease. With an increasing number of longitudinal microbiome studies, scientists are eager to learn the comprehensive characterization of microbial dynamics and their implications to the health and disease-related phenotypes. However, due to the challenging structure of longitudinal microbiome data, few analytic methods are available to characterize the microbial dynamics over time.

Results: We propose a microbial trend analysis (MTA) framework for the high-dimensional and phylogenetically-based longitudinal microbiome data. In particular, MTA can perform three tasks: 1) capture the common microbial dynamic trends for a group of subjects at the community level and identify the dominant taxa; 2) examine whether or not the microbial overall dynamic trends are significantly different between groups; 3) classify an individual subject based on its longitudinal microbial profiling. Our extensive simulations demonstrate that the proposed MTA framework is robust and powerful in hypothesis testing, taxon identification, and subject classification. Our real data analyses further illustrate the utility of MTA through a longitudinal study in mice.

Conclusions: The proposed MTA framework is an attractive and effective tool in investigating dynamic microbial pattern from longitudinal microbiome studies.

Keywords: Classification; Composition; Dynamic; High dimensionality; Hypothesis testing; Longitudinal microbiome; Phylogenetic tree; Variable selection.

MeSH terms

  • Animals
  • Computational Biology*
  • Longitudinal Studies
  • Mice
  • Microbiota*