Flow cytometry detects cells or particles in suspension by separating them in a narrow, rapidly flowing stream of liquid. The sample is passed through a laser, which detects properties such as size, ...

Flow cytometry is not just a technique. It has matured into a scientific field, one that has become virtually indispensable for most areas of biomedical research. Some of its more well-known ...

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

A research team from George R Brown School of Engineering and Computing (Rice University; TX, USA), led by Peter Lillehoj and Kevin Mchugh, have developed an innovative AI-enabled microfluidic ...

One of the primary objectives for the application of flow cytometry in any testing environment should be measurement assurance, i.e., the generation of reliable and reproducible results. This goal can ...

Flow cytometry remains a critical technology for the high-throughput analysis of single cells in complex populations. Attention to good analysis practices is more important than ever due to the recent ...

The discovery of vaccines has no doubt transformed modern medicine, opening up an entirely new avenue of preventative techniques. To date, two diseases have been eradicated through mass vaccination: ...

NovaFluor dyes are novel fluorophores for flow cytometry, designed with narrow emission spectra and minimal cross-laser excitation. NovaFluor dyes are engineered to emit at specific intervals and can ...