Spatial Biology – Webinars and Online Events

Webinar
The Tumor Microenvironment Series: Deep Phenotyping and Biomarker Discovery
On-Demand
The tumor microenvironment (TME) is a heterogenous network of various cell types and structural elements. Understanding cell interactions and biological processes within the TME offers possibilities for the development of improved and personalized therapies.
Imaging multiple biomarkers in a single tissue section combined with analysis of their spatial information within the TME enables deep phenotyping and biomarker discovery and can help improve cancer therapy.
In this webinar, we present the unique MACSima™ imaging cyclic staining (MICS) technology from Miltenyi that automates the imaging of hundreds of biomarkers and the associated software that has been specifically developed to analyze multidimensional datasets.
Imaging multiple biomarkers in a single tissue section combined with analysis of their spatial information within the TME enables deep phenotyping and biomarker discovery and can help improve cancer therapy.
In this webinar, we present the unique MACSima™ imaging cyclic staining (MICS) technology from Miltenyi that automates the imaging of hundreds of biomarkers and the associated software that has been specifically developed to analyze multidimensional datasets.

Webinar
The Tumor Microenvironment Series: 3D Fluorescence Imaging of Cancer Tissues
On-Demand
The tumor microenvironment (TME) is a complex biological network. Understanding interactions within the TME is a crucial step toward effective cancer therapy development. In this webinar, we present Miltenyi Biotec’s novel 3D imaging workflow. It enables simple high-resolution 3D visualization of large solid tumors and their microenvironment by an optimized combination of tissue clearing reagents, validated antibodies for 3D immunofluorescence and the UltraMicroscope Blaze™ light sheet microscope.

Webinar
The Tumor Microenvironment Series: The Tumor Microenvironment in a Nutshell
On-Demand
Tune into the TME webinar series and listen to the episode “Tumor Microenvironment in a Nutshell” to get a quick refresher on the cause and effect of the TME on tumor development.

Online Event
Advances in Proteomics & Metabolomics 2022
On-Demand
Returning for its third year, this online symposium will once again bring together leading scientists in the field as they highlight the latest advancements in translational proteomics and metabolomics. From uncovering the molecular mechanisms of disease pathology, to the latest technological developments in diagnostics and treatment.

Webinar
Scaling Up Deep Spatial Phenotyping of the Tissue Microenvironment
On-Demand
Join us for an invigorating spatial discussion, where we show the latest data using the PhenoCycler™-Fusion system, the fastest single-cell spatial biology solution.

Webinar
Developing Mass Spectrometry for Deep and Quantitative Single-Cell Proteomics
On-Demand
Dr. Nemes will share developments from his lab that enabled the in situ and in vivo measurement of metabolites and proteins in single cells in live tissues and organisms, while Dr. Orsburn will explain how leaps in mass spectrometry can facilitate unprecedented sequence coverage of protein at the single-cell level.

Webinar
Mapping Gene Expression Signatures in the Heart and Lungs of Patients with COVID-19
On-Demand
These technologies can help identify new strategies to enhance myocardial repair and regeneration through target validation and manipulation.

Webinar
As Easy as it Gets - Visualization Based Omics Data Analysis
On-Demand
Watch this webinar to learn how to import data, identify discriminating variables as well as Visualize the results in different plot types such as PCA, heatmaps, box plots etc.

Webinar
Decoding the Developing Human Immune System
On-Demand
The human immune system is extremely complex, comprised of multiple cell types and states interacting in myriad ways to produce diverse cellular ecosystems.

Webinar
Multiomic Approaches for Understanding Complex Disorders of the Human Brain
On-Demand
To gain a more comprehensive view of complex disorders of the human brain, researchers need innovative technologies to discover new insights at the molecular, cellular and tissue levels.
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