Panel Optimization for High-Dimensional Immunophenotyping Assays Using Full-Spectrum Flow Cytometry.

Laura Ferrer-Font, Sam J Small, Brittany Lewer, Katherine R Pilkington, Laura K Johnston, Lily M Park, Joanne Lannigan, Maria C Jaimes, Kylie M Price

September 2021 Curr Protoc

Synopsis of Social media discussions

The group shows strong support and interest in the publication, exemplified by phrases like 'Our protocol has been published!' and expressions of appreciation for the authors and contributors. The tone is enthusiastic and appreciative, emphasizing the practical utility and accessibility of the work, which supports the moderate engagement and impact scores.

A
Agreement
 Moderate agreement

Most discussions express enthusiasm and support for the publication and its protocols, indicating general agreement with its value.

I
Interest
 High level of interest

The frequent use of positive phrases like 'check it out' and 'published' suggests high interest among the community.

E
Engagement
 Moderate level of engagement

Posts include enthusiasm for sharing protocols and thanking authors, showing moderate engagement with both content and its implications.

I
Impact
 Moderate level of impact

While some posts highlight the significance of the protocols and their open-access nature, the overall impact perceived remains moderate, focused on dissemination rather than transformative change.

Social Mentions

YouTube

7 Videos

Twitter

6 Posts

Metrics

Video Views

20,909

Total Likes

137

Extended Reach

25,496

Social Features

13

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

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Optimizing High-Dimensional Immunophenotyping Panels with Full Spectrum Flow Cytometry

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Optimizing High-Dimensional Immunophenotyping with Full-Spectrum Flow Cytometry

Optimizing High-Dimensional Immunophenotyping with Full-Spectrum Flow Cytometry

This video discusses the optimization of complex immune cell panels using full-spectrum flow cytometry, enabling the analysis of up to 43 colors for accurate high-dimensional data. It includes step-by-step protocols and practical examples.

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  • Malaghan Institute
    @Malaghan_Inst (Twitter)

    RT @CurrentProtocol:
    view full post

    December 31, 2021

    4

  • Sam Small
    @SamSmallNZ (Twitter)

    RT @CurrentProtocol:
    view full post

    December 31, 2021

    4

  • Current Protocols
    @Curr_Protocols (Twitter)

    Here, and through comprehensive step-by-step protocols, the authors (@Malaghan_Inst) aim to guide users through the theory of optimizing a high-dimensional full-spectrum #FlowCytometry panel for #immunophenotyping. ➡️https://t.co/WX2AESdhOy #OpenAccess https://t.co/tmF7L9uRCz
    view full post

    September 13, 2021

    11

    6

  • ACS- Australasian Cytometry Society
    @ACScytometry (Twitter)

    RT @Lauretalila: Our protocol for Full Spectrum Flow Cytometry Panel Optimisation has been published! Check it out! https://t.co/xU8ndYMYGC…
    view full post

    September 7, 2021

    3

  • Brittany Lavender
    @gingersnapsci (Twitter)

    RT @Lauretalila: Our protocol for Full Spectrum Flow Cytometry Panel Optimisation has been published! Check it out! https://t.co/xU8ndYMYGC…
    view full post

    September 7, 2021

    3

  • Laura Ferrer
    @Lauretalila (Twitter)

    Our protocol for Full Spectrum Flow Cytometry Panel Optimisation has been published! Check it out! https://t.co/xU8ndYMYGC Thanks to all the authors and @CytekBio! #FlowCytometry #Immunophenotyping
    view full post

    September 7, 2021

    5

    3

Abstract Synopsis

  • This article discusses how advancements in full-spectrum flow cytometry have enabled the creation of larger, more complex immune cell panels (up to 43 colors) but also introduce challenges in designing and optimizing these panels for accurate high-dimensional data analysis.
  • Full-spectrum flow cytometry measures the entire emission spectrum of each fluorophore, making it easier to use fluorophores with similar emission peaks but different spectral fingerprints, which facilitates the design of larger panels.
  • The paper provides step-by-step protocols for optimizing high-dimensional flow cytometry panels, including practical examples like a 24-color panel for identifying T-cell subsets, along with troubleshooting methods to address common issues in panel design and setup.]