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MDITRE: Scalable and Interpretable Machine Learning for Predicting Host Status from Temporal Microbiome Dynamics

Venkata Suhas Maringanti, Vanni Bucci, Georg K. Gerber

2022mSystems19 citationsDOIOpen Access PDF

Abstract

The human microbiome, or collection of microbes living on and within us, changes over time. Linking these changes to the status of the human host is crucial to understanding how the microbiome influences a variety of human diseases. Due to the large scale and complexity of microbiome data, computational methods are essential. Existing computational methods for linking changes in the microbiome to the status of the human host are either unable to scale to large and complex microbiome data sets or cannot produce human-interpretable outputs. We present a new computational method and software package that overcomes the limitations of previous methods, allowing researchers to analyze larger and more complex data sets while producing easily interpretable outputs. Our method has the potential to enable new insights into how changes in the microbiome over time maintain health or lead to disease in humans and facilitate the development of diagnostic tests based on the microbiome.

Topics & Concepts

Host (biology)Dynamics (music)MicrobiomeScalabilityComputer scienceArtificial intelligenceMachine learningData sciencePsychologyBiologyBioinformaticsEcologyPedagogyDatabaseMetabolomics and Mass Spectrometry StudiesGut microbiota and healthBioinformatics and Genomic Networks
MDITRE: Scalable and Interpretable Machine Learning for Predicting Host Status from Temporal Microbiome Dynamics | Litcius