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Enhancing Flow Cytometry Data Visualization: A Standards Project Proposal

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This project focuses on the enhancement of flow cytometry data visualization standards. Led by Evgeny Maksakov in collaboration with experts from the Terry Fox Laboratory and BC Cancer Agency, this initiative will analyze existing visualization tools like FlowJo and propose innovative, user-friendly alternatives. The project aims to address the needs of researchers by improving data analysis processes, integrating clustering, and facilitating comprehensive visualization methods. Future work includes user evaluations and the implementation of advanced real data visualizations.

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Enhancing Flow Cytometry Data Visualization: A Standards Project Proposal

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  1. Visualization Tool forFlow Cytometry Data Standards Project Evgeny Maksakov maksakov@cs.ubc.ca CS533C Department of Computer Science, UBC in collaboration with Terry Fox Laboratory, BC Cancer Agency (Prof. Ryan Brinkman & Dr. Josef Spidlen)

  2. Today • Flow Cytometry Overview • Dataset description • Existing Visualizations Overview • Data analysis • Current (FlowJo) • Proposed • Prototype Progress • Future Work

  3. Flow Cytometry Cell Measure Measuring properties of cells in a fluid stream

  4. List of Flow Cytometry Application Fields • Chromatin structure • Total protein • Lipids • Surface charge • Membrane fusion/runover • Enzyme activity • Oxidative metabolism • Sulfhydryl groups/glutathione • DNA synthesis • DNA degradation • Gene expression • Immunophenotyping • DNA cell cycle/tumor ploidy • Membrane potential • Ion flux • Cell viability • Intracellular protein staining • pH changes • Cell tracking and proliferation • Sorting • Redox state The list is taken from http://www.basic.northwestern.edu/sharedresources/flowcytometry/

  5. Flow Cytometry (FCM)

  6. Dataset Properties Typically for researchat the TFL: • 100,000+ events • 5-10 dimensions Capability: • 1,000,000 events (cells going through the laser beam) per dataset • Up to 20 dimensions

  7. Dimensions (2 basic dimensions) (Granularity) (Size) (Laser)

  8. Dimensions (GFP intensity & PI) Green Fluorescent Protein intensity measures gene expression Mice glow green under ultraviolet light Aequorea Victoria (natural owner of GFP) PI (Propidium Iodide)dye intensity measures cells’ viability (life cells expunge the dye) Pictures is taken from http://en.wikipedia.org/wiki/Image:Aequorea_victoria.jpg & http://www.upenn.edu/pennnews/photos/

  9. Dimensions (16 fluorescence intensities) Picture from: http://www.bdbiosciences.com/image_library/

  10. Attaching markers to cells

  11. Current Visualization Solutions Made deliberately for FCM: • FlowJo (scatterplots, histograms, contour diagrams) • FACSDiva (scatterplots, histograms, contour diagrams)

  12. Current Visualization Solutions Universal data visualization tool: • GGobi • Draw dotplots and scatterplots, barcharts, spineplots and histograms, parallel coordinate plots, scatterplot matrices • Link data points and lines between plots using brushing and identification • Pan and zoom • Rotate data in 3D and tour high-dimensional data using sequences of 1D, 2D and 2x1D projections • Uses R language for data manipulation

  13. Data Analysis Process (FlowJo) Negative control (each scatterplot is a new window) Gates Event Count is a total number of cells passed through the laser beam Important note: sequence of actions is the same all the time for negative control!

  14. Data Analysis Process (FlowJo) Looking for result Non-marked cells Marked cells (result) Important note: Same gates as in neg. control apply automatically on the positive set!

  15. Other forms of result visualization (FlowJo)

  16. Proposal User requirements (based on user studies): • See all dimensions at once • Improve analysis sequence • Leave scatterplots and histograms (scientists used to them) • Gating/Filtering feature • Provide better usability than FlowJo Solutions: • Use Parallel Coordinates with Gating/Filtering • Implement data clustering throughout dimensions • Include scatterplots and histograms in the interface • Make effective, convenient and interactive interface

  17. Interface for FCM Data Analysis

  18. Prototype progress Highlighting of the gate. Random set, 3000 points, 7 dimensions.

  19. Prototype progress Filtering. Random set, 100 000 points, 7 dimensions. Full scale rendering takes ~1min.

  20. Prototype progress Interaction results. Random set, 3000 points, 7 dimensions.

  21. Future Work • Visualization of the real data • Clustering • Optimization • User evaluation

  22. 3D Parallel Coordinate System for FCM Marc Streit at al. (2006)

  23. 3D Parallel Coordinate System for FCM • - Does not provide any new information about dataset • Introduces visual occlusions • Have to rotate to see all data • Unavailable Picture from Marc Streit at al. (2006)

  24. Questions…

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