Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description Given the rapid progress in the field of immuno-oncology and techniques such as single-cell phenotyping theres a need to create an urgency around multiplex investigations with single-cell resolution that retain tissue context.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description Given the rapid progress in the field of immuno-oncology and techniques such as single-cell phenotyping theres a need to create an urgency around multiplex investigations with single-cell resolution that retain tissue context.

Description Overview highlighting InSituPlex technology coupled to the SLIDEVIEW VS200 scanner to produce high-quality, aligned images of eight targets in FFPE tumor sections

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.

Description The tumor microenvironment (TME) represents a complex interaction of immune and host cellsand can be described broadly as ‘inflamed’, ‘immune excluded’ and ‘desert’; categories that mayserve as predictive parameters for response to different immunotherapies. Multiplexedfluorescence and associated digital imaging platforms are important tools for defining the spatialcomponents of the TME and can accelerate development of novel immunotherapy strategies.