Spatial Proteomics

Unlocking New Insights in Tissue Microenvironments

Our Work

Unlocking New Insights in Tissue Microenvironments

Understanding the intricate behavior of individual cells is critical in today’s biomedical research, especially for immune system analysis, disease progression, and therapeutic response.

Imaging Mass Cytometry™ (IMC™)

The dynamics of tissue microenvironments play a crucial role in understanding disease progression, therapeutic response, and biomarker discovery. Imaging Mass Cytometry™ (IMC™) technology, powered by the Hyperion™ XTi Imaging System, enables researchers to explore the complexity of these dynamics with unparalleled precision. By detecting over 40 protein and RNA markers simultaneously in tissue samples, IMC uncovers spatial relationships that conventional imaging methods overlook.

Imaging Mass Cytometry™ (IMC™)

Designed for high throughput and reproducibility, IMC offers the highest dynamic range in the industry, making it ideal for translational and clinical research. Whether focusing on oncology, immunology, or other complex diseases, these spatial proteomics solutions deliver the detailed insights needed to guide any phase of research.

Capabilities

CyTOF® XT System allows researchers to dive deep into single-cell proteomics by detecting over 50 markers

Technology

CyTOF® XT System allows researchers to dive deep into single-cell proteomics by detecting over 50 markers

Workflow

CyTOF® XT System allows researchers to dive deep into single-cell proteomics by detecting over 50 markers

Unparalleled Multiplexing Capability

CyTOF XT detects over 50 markers at once, far exceeding the limits of traditional flow cytometry. This enables a comprehensive analysis of immune populations and functional responses in a single experiment.

High Dynamic Range

Unlike traditional fluorescence-based imaging techniques, which often struggle with signal saturation and autofluorescence, IMC captures both high and low levels of protein expression in the same sample with exceptional clarity.

Assay development time

Because IMC technology uses an antibody reagent cocktail, it is simple to mix and match different antibodies without extensive assay validation.

Simultaneous Detection of 40+ Markers

IMC allows for the simultaneous imaging of over 40 markers in a single tissue section, facilitating the detailed mapping of tissue architecture, immune cell infiltration, and biomarker expression. This multiplexing capability provides richer, more comprehensive data with fewer processing cycles than traditional methods.

Flexibility of tissue acquisition

Flexibility of tissue acquisition parameters (Hyperion imaging modes) and Automated, High-Throughput Imaging: With the Hyperion XTi™ Slide Loader, researchers can image up to 40 slides in 24 hours, making it easier to process large-scale studies and accelerate results without compromising precision – run an entire study in an automated, walkaway run.

No Autofluorescence Interference

IMC utilizes metal-tagged antibodies instead of fluorophores, eliminating issues with autofluorescence and delivering cleaner, more reliable data, even from challenging tissue samples.

Discover the throughput and precision that is uniquely designed for translational researchers.

Jana Fischer, PhD Co-Founder and CEO, Navignostics

Unraveling the Complexity of the Immune System

Fluorescence-Based Imaging

Traditional

Traditional imaging methods, such as cyclic immunofluorescence, are limited by their low dynamic range, autofluorescence interference, and slow, multi-cycle processes. For example, brightfield imaging (DAB) gives at best one order of magnitude (OoM) of dynamic range, while fluorescence gives 2–3 OoM and IMC gives 5 OoM. These limitations often result in incomplete data, as they cannot capture both high- and low-expressing biomarkers in a single image, leading to missed insights.

Spectral Overlap

< 20 Markers

Staining Redundancy

Our Work

Fluorescence-Based Imaging

Standard Bio

IMC overcomes these challenges by capturing the full dynamic range of spatial biomarkers, detecting both high- and low-expressing proteins simultaneously. This approach eliminates the need for multiple imaging cycles and delivers high-resolution, quantitative data without the drawbacks of autofluorescence. IMC provides up to 100 times higher throughput than cyclic fluorescence, making it the ideal solution for large-scale research studies.

Technology

Imaging Mass Cytometry™ (IMC™)

Hyperion XTi

CyTOF XT detects over 50 markers at once, far exceeding the limits of traditional flow cytometry. This enables a comprehensive analysis of immune populations and functional responses in a single experiment.