Megamix-Plus SSC

    default
    Reference
    7803
    Status
    RUO
    Sample
    500 µl beads
    Quantity
    50 tests
    Detection
    Fluorescent
    Volume
    25 ml
    Application
    Flow Cytometry Kits
    Form

    Megamix-Plus SSC is a mix of beads with following diameters: 0.16 µm, 0.20 µm, 0.24 µm and 0.5 µm.

    Megamix-Plus SSC is a mix of fluorescent beads of varied diameters, selected to cover a major part of the theoretical MP size range (0.1 to 1 µm), using SSC as a size-related parameter. Beads acquisition according to the procedure allows setting the cytometer to study MP within a constant size region and getting reproducible MP counts. Since relative position of biological MP and beads in SSC is different from that in FSC, Megamix-Plus SSC beads feature reference sizes different from those provided in Megamix-Plus FSC. Finally, Megamix-Plus SSC also helps to transfer the protocol and scatter settings from one cytometer to another and to check the stability over-time.

    Date Document Name Download
    01/04/2017 Package insert Megamix-Plus SSC EN (458.65 KB)
    FR (439.95 KB)
    Author Title Year of edition Review
    Inglis H.C. et al
    Techniques to Improve Detection and Analysis of Extracellular Vesicles Using Flow Cytometry
    2015
    Cytometry Part A
    Poncelet P. et al
    Standardized Counting of Circulating Platelet Microparticles Using Currently Available Flow Cytometers and Scatter-Based Triggering: Forward or Side Scatter?
    2016
    Cytometry Part A
    Poncelet P et al
    Tips and tricks for flow cytometry-based analysis and counting of microparticles
    2015
    Transf Apher Sci
    Khalil, J
    High-Throughput Isolation of Giant Viruses in Liquid Medium Using Automated Flow Cytometry and Fluorescence Staining
    2016
    Front. Microbiol.
    Sánchez-López V
    High correlation between 2 flow cytometry platforms in the microparticles analysis using a new calibrated beads strategy
    2015
    Transl Res.
    Cointe S. et al
    Standardization of microparticle enumeration across different flow cytometry platforms: results of a multicenter collaborative workshop
    2016
    JTH