Miltenyi Biotec
For more than 30 years, Miltenyi Biotec has played an important role in the design, development, manufacture and integration of products that empower the advancement of biomedical research and enable cell and gene therapy. They believe in biomedical science as the strongest driver to change the way we treat cancer, autoimmune diseases and neurodegenerative disorders.
Latest Miltenyi Biotec Content
App Note / Case Study
Deciphering Cell–Cell Interactions in Liver Metastases
This application focus explores how spatial profiling with cyclic staining imaging technology can address this knowledge gap in liver metastases research.
Online Event
The Spatial Biology Revolution 2024
Learn about the latest research in spatial biology and its applications. From understanding the mechanisms of infectious disease to early diagnostics and therapeutics, hear the outstanding advancements in the field.
Webinar
Maximize Your Sample’s Full Potential for Genomic Analysis
On-Demand
High-quality genomics studies start with high-quality sample preparation.
This webinar will explore how you can enhance your genomics research with advanced sample preparation solutions tailored for fresh, snap-frozen, and FFPE samples.
This webinar will explore how you can enhance your genomics research with advanced sample preparation solutions tailored for fresh, snap-frozen, and FFPE samples.
Online Event
Advances in Proteomics & Metabolomics 2024
On-Demand
Hear about the latest advancements in translational proteomics and metabolomics. From the molecular mechanisms of disease pathology to the latest technological developments in diagnostics and treatment.
Webinar
A Novel Perfusion Technique for Multiomics Studies on Hepatocyte Aging
On-Demand
The liver is a very good example of how tissue architecture can influence aging. Composed mainly of hepatocytes, the position of these cells is key to their role and determines changes in their metabolism and aging profile.
Researchers from the Max Planck Institute have conducted an in-depth multiomics analysis of functional and healthy hepatocytes, characterizing transcriptional, epigenetic, lipidomic and functional signatures to understand the effects of aging.
In this webinar, you’ll hear all about their research, including the novel perfusion technology for resected mouse liver that makes it easy and convenient to obtain viable hepatocytes to analyze.
Researchers from the Max Planck Institute have conducted an in-depth multiomics analysis of functional and healthy hepatocytes, characterizing transcriptional, epigenetic, lipidomic and functional signatures to understand the effects of aging.
In this webinar, you’ll hear all about their research, including the novel perfusion technology for resected mouse liver that makes it easy and convenient to obtain viable hepatocytes to analyze.
Webinar
Uncovering the Role of T Cells in Cancer With Spatial Biology
On-Demand
This webinar will focus on using spatial biology approaches to understand the role of human γδ T cell subtypes in cancer, illustrating how to assess this subset in their tissue microenvironments at high resolution.
Webinar
Deciphering Cell–Cell Interactions in Liver Metastases
On-Demand
The liver is the most common metastatic site for many primary tumors. Single-cell gene and protein expression, in combination with spatial data that contextualizes relationships with other tumor cells and structures, are critical to fully understand how cells communicate in liver metastases.
Resolving the precise spatial location of each single cell allows for a comprehensive understanding of the tissue architecture for each tumor and helps identify critical cell–cell communication circuits.
This webinar will highlight approaches to generating a spatial atlas of tumors, illustrate how to integrate single-cell transcriptomics data with spatial data and explore how to track cell behavior to study cell–cell interactions in each cellular neighborhood.
Resolving the precise spatial location of each single cell allows for a comprehensive understanding of the tissue architecture for each tumor and helps identify critical cell–cell communication circuits.
This webinar will highlight approaches to generating a spatial atlas of tumors, illustrate how to integrate single-cell transcriptomics data with spatial data and explore how to track cell behavior to study cell–cell interactions in each cellular neighborhood.
Webinar
Maximizing the Power of Flow Cytometry: Advanced Panel Design
On-Demand
In this webinar, you’ll discover the principles of antibody panel design as well as how to streamline the process to amplify the quality of your results.
Webinar
Understanding the Role of Immune Cells in the Tumor Microenvironment
On-Demand
Using the example of tumor-associated macrophages (TAMs), this webinar takes a closer look at immune cells in the tumor microenvironment (TME), helping us to gain a better understanding of how specific subtypes and their reprogramming may influence therapy efficiency.
App Note / Case Study
Enabling Accurate Mutation Analysis of FFPE Samples
Targeted sequencing based on NGS offers new perspectives in drug selection for cancer patients. The accuracy of mutation analysis relies on the tumor content of the tissue samples.
Advertisement