Self-supervised Clustering of Mass Spectrometry Imaging Data Using Contrastive Learning

09 August 2021, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Mass spectrometry imaging (MSI) is widely used for the label-free molecular mapping of biological samples. The identification of co-localized molecules in MSI data is crucial to the understanding of biochemical pathways. However, complex MSI data are too large for manual annotation but too small for training deep networks. Herein, we introduce a self-supervised clustering approach based on contrastive learning, which shows an excellent performance in clustering of small MSI data. We train a deep convolutional neural network (CNN) using MSI data from a single experiment without manual annotations to effectively learn high-level spatial features from ion images and classify them based on molecular colocalizations. We demonstrate that contrastive learning generates ion image representations that form well-resolved clusters. Subsequent self-labeling is used to fine-tune both the CNN encoder and linear classifier based on confidently classified ion images. This new approach enables autonomous and high-throughput identification of co-localized species in MSI data, which will dramatically expand the application of spatial lipidomics, metabolomics, and proteomics in biological research.

Keywords

Mass spectrometry imaging
Molecular co-localization
image clustering
Convolutional neural network
Contrastive learning

Supplementary materials

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Title
SI - Self-supervised Clustering of Mass Spectrometry Imaging Data Using Contrastive Learning
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