Multiplexing immunofluorescence imaging enables the analysis of the whole tissue microenvironment: the single cell resolution combined with spatial localization retrieves the information of cellular relationships and organization within the same morphological context. However, the complexity of the analysis, time-consuming optimization, and execution of staining protocols as well as significant challenges in result reproducibility, slow down the wide adoption of such a powerful research tool. In this talk, we will introduce how LabSat® performs automated staining and allows to achieve high quality, reproducible and uniform results thanks to the Fast Fluidic Exchange™ (FFeX™) microfluidic technology. In the second part, our hyperplex platform Comet™ has been adopted to gather comprehensive insights into various spatial biology research applications such as the biomarker profiling of human prostate cancer tissue by multiplex immunofluorescence assay. Discover how LabSat® and Comet™ can support your research by performing sequential immunofluorescence from healthy to tumoral samples, on mouse and human tissues.
  • Multiplexing: why and how
  • Automated multiplexing to accelerate spatial biology research
  • Sequential immunofluorescence on LabSat®
  • Hyperplex immunofluorescence with Comet™ platform
  • Protocol optimization on prostate carcinoma
Lunaphore Technologies
Register To Watch Recording
Full name*
Email Address*
Company Country*
Does your laboratory perform tissue stainings?*
Research Area*
Stage of Research*
Privacy Policy
Yes, I want to register.*
Accept the Privacy Policy
I accept *
We use BigMarker as our webinar platform. By clicking Register, you acknowledge that the information you provide will be transferred to BigMarker processing in accordance with their Terms of Service and Privacy Policy.