Latest Posters

In tumors, metabolic shifts cause increased glucose uptake and fermentation. Traditionally, bulk analysis has been used to measure tumor metabolism, however, all tumors show some heterogeneity, and only an average measurement is produced by bulk analysis.

Highly multiplexed spatial biomarker analysis has demonstrated the potential to advance our current understanding of the immune system and its role in cancer.

T cells can develop an exhausted phenotype due to prolonged antigen stimulation, resulting in reduced proliferative potential and loss of cytotoxic funtion. This can occur within the tumor microenvironment, allowing cancer cells to escape immune surveillance.

Insights and Expanding Practical Education in a Core Facility With Brightfield Imaging-Enabled Flow Cytometry

The diversity of potential mRNA-based therapies has led to increased interest in using synthetic mRNA as a tool in the treatment of multiple diseases. Nevertheless, obtaining larger quantities of synthetic mRNA for clinical treatment remains a challenge.

The potential of human pluripotent stem cells (hPSCs) continues to show incredible promise, rapidly progressing through clinical trials for use in treatment of a multitude of diseases. However, historical methods of hPSC culture have remained a barrier of entry into the clinic even with relative success within in vitro cellular research.

Download this poster to discover a novel xeno-free culture system that can facilitate the development of a robust, clinically acceptable culture process and maintains MSC features.

The Agilent ZAG DNA Analyzer system is a high-throughput capillary electrophoresis instrument designed for qualitative analysis of DNA samples up to 20,000 bp in size. Download this poster to discover a system that streamlines the genotyping process and can separate up to 96 samples simultaneously.

For circulating cell free DNA (ccfDNA) to be used in cancer research successfully, workflow standardization is essential. Access this poster to discover tips on optimal workflow control, how to yield smaller ccfDNA fragments and the differences in quantification and qualification of ccfDNA.

Tumor associated macrophages (TAMs) can facilitate the proliferation of tumor cells and are able to suppress anti-tumor immune responses within the tumor microenvironment, making them a highly attractive target for the development of innovative cancer immunotherapies.