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TEAM: A MULTIPLE TESTING ALGORITHM ON THE AGGREGATION TREE FOR FLOW CYTOMETRY ANALYSIS.

Publication ,  Journal Article
Pura, JA; Li, X; Chan, C; Xie, J
Published in: Ann Appl Stat
March 2023

In immunology studies, flow cytometry is a commonly used multivariate single-cell assay. One key goal in flow cytometry analysis is to detect the immune cells responsive to certain stimuli. Statistically, this problem can be translated into comparing two protein expression probability density functions (pdfs) before and after the stimulus; the goal is to pinpoint the regions where these two pdfs differ. Further screening of these differential regions can be performed to identify enriched sets of responsive cells. In this paper, we model identifying differential density regions as a multiple testing problem. First, we partition the sample space into small bins. In each bin, we form a hypothesis to test the existence of differential pdfs. Second, we develop a novel multiple testing method, called TEAM (Testing on the Aggregation tree Method), to identify those bins that harbor differential pdfs while controlling the false discovery rate (FDR) under the desired level. TEAM embeds the testing procedure into an aggregation tree to test from fine- to coarse-resolution. The procedure achieves the statistical goal of pinpointing density differences to the smallest possible regions. TEAM is computationally efficient, capable of analyzing large flow cytometry data sets in much shorter time compared with competing methods. We applied TEAM and competing methods on a flow cytometry data set to identify T cells responsive to the cytomegalovirus (CMV)-pp65 antigen stimulation. With additional downstream screening, TEAM successfully identified enriched sets containing monofunctional, bifunctional, and polyfunctional T cells. Competing methods either did not finish in a reasonable time frame or provided less interpretable results. Numerical simulations and theoretical justifications demonstrate that TEAM has asymptotically valid, powerful, and robust performance. Overall, TEAM is a computationally efficient and statistically powerful algorithm that can yield meaningful biological insights in flow cytometry studies.

Duke Scholars

Published In

Ann Appl Stat

DOI

ISSN

1932-6157

Publication Date

March 2023

Volume

17

Issue

1

Start / End Page

621 / 640

Location

United States

Related Subject Headings

  • Statistics & Probability
  • 4905 Statistics
  • 1403 Econometrics
  • 0104 Statistics
 

Citation

APA
Chicago
ICMJE
MLA
NLM
Pura, J. A., Li, X., Chan, C., & Xie, J. (2023). TEAM: A MULTIPLE TESTING ALGORITHM ON THE AGGREGATION TREE FOR FLOW CYTOMETRY ANALYSIS. Ann Appl Stat, 17(1), 621–640. https://doi.org/10.1214/22-aoas1645
Pura, John A., Xuechan Li, Cliburn Chan, and Jichun Xie. “TEAM: A MULTIPLE TESTING ALGORITHM ON THE AGGREGATION TREE FOR FLOW CYTOMETRY ANALYSIS.Ann Appl Stat 17, no. 1 (March 2023): 621–40. https://doi.org/10.1214/22-aoas1645.
Pura JA, Li X, Chan C, Xie J. TEAM: A MULTIPLE TESTING ALGORITHM ON THE AGGREGATION TREE FOR FLOW CYTOMETRY ANALYSIS. Ann Appl Stat. 2023 Mar;17(1):621–40.
Pura, John A., et al. “TEAM: A MULTIPLE TESTING ALGORITHM ON THE AGGREGATION TREE FOR FLOW CYTOMETRY ANALYSIS.Ann Appl Stat, vol. 17, no. 1, Mar. 2023, pp. 621–40. Pubmed, doi:10.1214/22-aoas1645.
Pura JA, Li X, Chan C, Xie J. TEAM: A MULTIPLE TESTING ALGORITHM ON THE AGGREGATION TREE FOR FLOW CYTOMETRY ANALYSIS. Ann Appl Stat. 2023 Mar;17(1):621–640.

Published In

Ann Appl Stat

DOI

ISSN

1932-6157

Publication Date

March 2023

Volume

17

Issue

1

Start / End Page

621 / 640

Location

United States

Related Subject Headings

  • Statistics & Probability
  • 4905 Statistics
  • 1403 Econometrics
  • 0104 Statistics