We’ve rebranded some of our products, learn more ›
CODEX is now PhenoCycler
Phenoptics is now Phenolmager
PhenoCycler – Rapid, Deep Spatial Phenotyping
Characterizing the complexities of the tissue microenvironment is a critical step towards understanding molecular and cellular mechanisms associated with disease development, differentiation, and response. The PhenoCycler®-Fusion allows spatial phenotyping of millions of cells at unprecedented scale and speed. Mapping millions of cells and their interactions across single intact tissue sections facilitates the discovery of rare cell types, cellular neighborhoods, and spatial functional states.
Push the frontiers of spatial biology with your team using the PhenoCycler solutions (formerly CODEX®).
Benefits
Fast
Sample-To-Data Within
24 Hours
24 Hours
Unbiased
Whole-Slide Imaging at Single-Cell Resolution
Ultrahigh-plex
Image 100+ Protein and RNA Biomarkers
Multiomic
Analyze Protein and RNA Biomarkers in situ
Case Studies
From Rare Cell Discovery and Cellular Neighborhood Analysis: Novel Insights Generated via Spatial Phenotyping
Learn how single-cell spatial phenotyping is helping generate new insights about the interplay between different cellular actors in disease promotion or suppression across oncology, immunology, and neurodegenerative disease.
Uncovering Partial Immunotherapy Response via Rapid, Deep, Spatial Phenotyping
See how a 100-plex panel is used to interrogate cancer targets and to push the limits of cancer research by revealing unique interactions and potential therapeutic targets not otherwise apparent with conventional techniques.
A Spatial Multiomic Approach: Integrating single-cell spatial proteomics single-cell and spatial transcriptomics
In this webinar, our speakers explore what we can learn from true multiomics by measuring multiple analytes across the same section, generating novel insights.
Imaging Gallery
Head and Neck Cancer
Oropharyngeal Carcinoma – FFPE tissue stain with 103-plex panel
Tissue Biopsy
Healthy Lung - FFPE tissue stained with 39-plex panel
Breast Cancer
Adenocarcinoma – FFPE tissue stained with 36-plex panel
Neurodegenerative Disease
Alzheimer’s Disease - FFPE - brain stained with 34-plex panel
Immune Mediated Disease
Psoriasis – FFPE skin stained with 23-plex panel
Mouse Tissue
Spleen – FF tissue stained with 6-plex panel
Technology
Watch this video to learn how the PhenoCycler instrument uses the reveal, image, remove workflow to spatially phenotype cells while retaining tissue context and maintaining sample integrity. Learn how this simple but practical instrument gives you unmatched flexibility to phenotype every single cell across the whole slide giving access to unbiased spatial phenotyping.
Workflow
Stain
Image
Analyze
Stain
Select from an expanded menu of antibodies and reagents optimized and validated for the PhenoCycler System. Including the gold standard verified PhenoCode Discovery Panels which offer simplified and rapid interrogation of the tumor and the surrounding tumor-microenvironment. These panels are meticulously designed with essential markers to answer biology’s most pertinent questions
Image
The PhenoCycler-Fusion is an integrated platform combining automated, ultrahigh-plex cycling, with high-speed imaging into an end-to-end, integrated workflow.
Analyze
Visualize and interpret data using Akoya’s software suite or one of our analysis partners.
Related Publications
Coordinated cellular neighborhoods orchestrate antitumoral immunity at the colorectal cancer invasive front
2020 Sep 03
This seminal study provides a framework for integrating how complex biological processes, such as antitumoral immunity, occur through concerted action of cells and spatial domains.
Immunotherapy of glioblastoma explants induces interferonγ responses and spatial immune cell rearrangements in tumor center, but not periphery
2022 Jan 21
This study demonstrates that ex
vivo immunotherapy of glioblastoma multiforma explants enables an active antitumoral immune response within
the tumor center, and provides a framework for multidimensional
personalized assessment of tumor response to immunotherapy.
A single cell spatial temporal atlas of skeletal muscle reveals cellular neighborhoods that orchestrate regeneration and become disrupted in aging
2022 Jun 10
Highly multiplexed spatial proteomics, neural network and machine learning uncovers temporal dynamics in the spatial crosstalk between immune, fibrogenic, vascular, nerve, and muscle stem cells and myofibers during regeneration.
