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Spatial biology is a research field that seeks to understand the spatial relationship and interactions of various biological components, such as cells, proteins, and genes, within biological samples.
It interprets how these elements are arranged and interacting within tissues.
We offer all major spatial biology modalities such as CODEX, OPAL, VISIUM, COSMX, and HYPERION.
Only €3.000 per slide (CODEX), €1.000 per slide (OPAL) with results reported within 2 weeks.
Application of advanced analytical techniques as the key to unlocking breakthrough revelations.
We offer all major spatial biology modalities such as CODEX, OPAL, VISIUM, COSMX, and HYPERION.
Only €3.000 per slide (CODEX), €1.000 per slide (OPAL) with results reported within 2 weeks.
Application of advanced analytical techniques as the key to unlocking breakthrough revelations.
The power of multiomics.
Revolutionizing our understanding of cellular biology,
enabling us to decipher complex biological processes and interaction at once.
Bulk
Single cell
Spatial Profiling
Protein solution
RNA solution
CODEX
OPAL
Visium
GeoMX
Hyperion
Key Features
Utilizes DNA-barcoded antibodies for multiplexing
Provides high-plexity
information on cellular phenotypes
Multiplexed immunofluorescence imaging
Utilizes sequential staining with different fluorophores
Captures gene expression data in a spatial context
Compatible with fresh-frozen and FFPE tissue samples
Enables high-plex protein or RNA profiling with spatial resolution
Digital spatial profiling allows precise region-specific analysis
Enables comprehensive profiling of the tumor microenvironment
Simultaneously analyzes up to 37 protein markers at a single-cell level
Provides high-resolution spatial information on protein expression
Advantages
High-dimensional tissue imaging
Enables detailed analysis of cellular phenotypes
Provides spatial relationships in a high-plex setting
Simultaneous detection of multiple biomarkers
Provides spatial information on protein expression
Multiplexed immunofluorescence imaging capability.
Spatial transcriptomics technology
Maps gene expression data within tissue sections
Captures gene expression in a spatial context
Digital Spatial Profiling (DSP) for high-plex profiling
Compatible with various sample types
Enables high-plex protein or RNA profiling with spatial resolution
Imaging Mass Cytometry (IMC) for high-plex single-cell analysis
Simultaneous analysis of up to 37 protein markers
Simultaneous analysis of up to 37 protein markers
Key Features
Utilizes DNA-barcoded antibodies for multiplexing
Provides high-plexity
information on cellular phenotypes
Advantages
Multiplexed immunofluorescence imaging
Utilizes sequential staining with different fluorophores
Key Features
Multiplexed immunofluorescence imaging
Â
Utilizes sequential staining with different fluorophores
Advantages
Simultaneous detection of multiple biomarkers
Â
Provides spatial information on protein expression
Â
Multiplexed immunofluorescence imaging capability.
Key Features
Captures gene expression data in a spatial context
Â
Compatible with fresh-frozen and FFPE tissue samples
Advantages
Spatial transcriptomics technology
Â
Maps gene expression data within tissue sections
Â
Captures gene expression in a spatial context
Key Features
Enables high-plex protein or RNA profiling with spatial resolution
Â
Digital spatial profiling allows precise region-specific analysis
Â
Enables comprehensive profiling of the tumor microenvironment
Advantages
Digital Spatial Profiling (DSP) for high-plex profiling
Â
Compatible with various sample types
Â
Enables high-plex protein or RNA profiling with spatial resolution
Key Features
Simultaneously analyzes up to 37 protein markers at a single-cell level
Â
Provides high-resolution spatial information on protein expression
Advantages
Imaging Mass Cytometry (IMC) for high-plex single-cell analysis
Â
Simultaneous analysis of up to 37 protein markers
Â
Simultaneous analysis of up to 37 protein markers
Stresses the company’s ability to transform raw biological samples into valuable scientific insights.
Highlights the detailed analysis possible with multiomics, revealing intricate biological processes.
Focuses on how combining transcriptomics and proteomics leads to a comprehensive
understanding of biological functions.
Lambda possesses five cutting-edge tools in spatial biology research. These tools enable the investigation of the spatial relationships of cellular components in various aspects of biological processes.
Lambda possesses five cutting-edge tools in spatial biology research. These tools enable the investigation of the spatial relationships of cellular components in various aspects of biological processes.
Lambda possesses five cutting-edge tools in spatial biology research. These tools enable the investigation of the spatial relationships of cellular components in various aspects of biological processes.
Lambda possesses five cutting-edge tools in spatial biology research. These tools enable the investigation of the spatial relationships of cellular components in various aspects of biological processes.
Preparing
GeoMX
€10.890+
Preparing
Hyperion
€3.200+
@ 2024 . All rights reserved
@ 2024 . All rights reserved