Frontiers in Immunology (Jun 2019)

Quantitative Comparison of Conventional and t-SNE-guided Gating Analyses

  • Shadi Toghi Eshghi,
  • Amelia Au-Yeung,
  • Chikara Takahashi,
  • Christopher R. Bolen,
  • Maclean N. Nyachienga,
  • Sean P. Lear,
  • Cherie Green,
  • W. Rodney Mathews,
  • William E. O'Gorman

DOI
https://doi.org/10.3389/fimmu.2019.01194
Journal volume & issue
Vol. 10

Abstract

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Dimensionality reduction using the t-Distributed Stochastic Neighbor Embedding (t-SNE) algorithm has emerged as a popular tool for visualizing high-parameter single-cell data. While this approach has obvious potential for data visualization it remains unclear how t-SNE analysis compares to conventional manual hand-gating in stratifying and quantitating the frequency of diverse immune cell populations. We applied a comprehensive 38-parameter mass cytometry panel to human blood and compared the frequencies of 28 immune cell subsets using both conventional bivariate and t-SNE-guided manual gating. t-SNE analysis was capable of stratifying every general cellular lineage and most sub-lineages with high correlation between conventional and t-SNE-guided cell frequency calculations. However, specific immune cell subsets delineated by the manual gating of continuous variables were not fully separated in t-SNE space thus causing discrepancies in subset identification and quantification between these analytical approaches. Overall, these studies highlight the consistency between t-SNE and conventional hand-gating in stratifying general immune cell lineages while demonstrating that particular cell subsets defined by conventional manual gating may be intermingled in t-SNE space.

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