Webinar: Spatial Biology Workflows for Tumor Microenvironment Profiling
Multiplex imaging is reshaping how researchers explore tissue biology, delivering high-resolution spatial insights that advance translational and immuno-oncology research. But unlocking the full potential of these workflows depends on optimized antibody selection, rigorously validated staining protocols, and robust spatial computational analysis.
In this on-demand webinar, our panelists share results from a murine bladder cancer study, illustrating how high-plex imaging and spatial analytics can characterize the cellular and molecular landscape of the tumor microenvironment (TME). Learn how combining validated antibody panels with advanced computational tools can accelerate discovery in translational oncology.
Danielle Fails, MSc
Manager, Manufacturing Science
Bethyl Laboratories
Trevor McKee, PhD
Vice President and Co-founder
Astraea Bio
Hideki Furuya, PhD
Assoc. Prof, Biomedical Sciences
Cedars-Sinai Medical Center
- How precision and reproducibility shape
spatial biology workflows for translational research.
- Approaches for applying spatially informed
computational analysis to quantify complex staining patterns and extract
meaningful biological insights.
- Real-world examples of how integrated
multiplex imaging and computational analytics drive discovery in a murine
bladder cancer model.
- Translational researchers and scientists
studying tissue biology and biomarker discovery.
- Pathologists and immunologists working
with multiplex immunofluorescence or spatial biology.
- Computational biologists and data
scientists focused on spatial imaging analysis.
- Researchers in pharmaceutical and biotech
organizations advancing precision medicine.
- Academic and industry scientists seeking to integrate imaging and computational pipelines for translational studies.
