Flow cytometry detects and measures the chemical and physical properties and characteristics of particles or cells within a population. Samples are suspended in a liquid, held in a tube, and counted ...

Flow cytometry enables researchers to label proteins of interest using fluorophore-conjugated antibodies and other fluorochromes. Much like immunohistochemistry, which produces two- or ...

If you work in cell biology or immunology, chances are that you're familiar with flow cytometry. This technique measures and analyzes biological cells by suspending them in a stream of fluid and ...

Technological change is often driven by the needs of people. Flow cytometry is no different. The designs of instruments and processing techniques are evolving to meet the needs of researchers and drug ...

Flow cytometry uses fluorescent probes to identify and characterize cells or particles in suspension (e.g. cells, nuclei or chromosomes) by virtue of size, granularity and fluorescence ...

Flow cytometry experiments are measuring more variables than ever, pushing the technical limits of conventional flow cytometry. Spectral flow cytometry enables multicolor panels with more parameters ...

Science can be colorful, fast and fantastic - just ask some aspiring FlowJos. Read on to learn how to go with the flow in this introductory guide on flow cytometry! Flow cytometry (Flow = fluidics, ...

Designing robust and effective flow cytometry experiments requires careful consideration of fluorochrome selection, panel design, and up-to-date immune cell subset information. In this talk, we will ...

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 ...