K-means quantization for a web-based open-source flow cytometry analysis platform

Flow cytometry (FCM) is an analytic technique that is capable of detecting and recording the emission of fluorescence and light scattering of cells or particles (that are collectively called “events”) in a population 1 . A typical FCM experiment can produce a large array of data making the analysis...

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Bibliographic Details
Published in:Scientific reports 2021-03, Vol.11 (1), p.6735-6735, Article 6735
Main Authors: Wong, Nathan, Kim, Daehwan, Robinson, Zachery, Huang, Connie, Conboy, Irina M.
Format: Article
Language:English
Subjects:
631/114
631/114/1305
631/114/1314
631/114/2398
631/114/2415
631/114/794
Algorithms
Data processing
Flow cytometry
Gating
Humanities and Social Sciences
Light scattering
multidisciplinary
Science
Science (multidisciplinary)
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Summary:Flow cytometry (FCM) is an analytic technique that is capable of detecting and recording the emission of fluorescence and light scattering of cells or particles (that are collectively called “events”) in a population 1 . A typical FCM experiment can produce a large array of data making the analysis computationally intensive 2 . Current FCM data analysis platforms (FlowJo 3 , etc.), while very useful, do not allow interactive data processing online due to the data size limitations. Here we report a more effective way to analyze FCM data on the web. Freecyto is a free and intuitive Python-flask-based web application that uses a weighted k-means clustering algorithm to facilitate the interactive analysis of flow cytometry data. A key limitation of web browsers is their inability to interactively display large amounts of data. Freecyto addresses this bottleneck through the use of the k-means algorithm to quantize the data, allowing the user to access a representative set of data points for interactive visualization of complex datasets. Moreover, Freecyto enables the interactive analyses of large complex datasets while preserving the standard FCM visualization features, such as the generation of scatterplots (dotplots), histograms, heatmaps, boxplots, as well as a SQL-based sub-population gating feature 2 . We also show that Freecyto can be applied to the analysis of various experimental setups that frequently require the use of FCM. Finally, we demonstrate that the data accuracy is preserved when Freecyto is compared to conventional FCM software.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-86015-6