Multicolor flow cytometry is beneficial because it allows us to gain deeper insights from a given biological sample, with fewer repeat markers in each tube and quicker results. In this three-part ...

Optimizing RNA encapsulation is vital for formulation development and maximizing delivery to target cells to ensure the success of therapeutics and vaccines. However, assessing the efficiency of the ...

The past decade has seen an explosion in the number of antibody-based therapeutics on the market. A huge driver of this has been the advancement of technologies that improve the time and efficiency of ...

Whole blood sample stability as an analytical parameter should be assessed when developing pharmacodynamic flow cytometry assays. Sample stability will determine the robustness of detecting not only ...

Spectral flow cytometry is an established technology that offers the ability to extract autofluorescence, gives researchers more flexibility when it comes to fluorochrome selection, and facilitates ...

Flow core facilities are under growing pressure to support fragile cells, rare populations, and advanced applications such as single-cell multiomics and cell therapy workflows, all while meeting ...

Similar to Sartorius’ other popular digital handbooks, readers will enjoy easy navigation to topics of interest, informative workflow illustrations, detailed application examples, and direct links to ...

Flow cytometry is a way to look closely at the features of cells or particles. A sample of blood or tissue goes into a machine called a cytometer. In less than a minute, a computer can analyze ...

This technology has vast potential to help patients but remains underutilized and underappreciated. The tools are there. What’s lacking are harmonized controls, regulatory guidelines and database ...