Flow cytometry is an invaluable method for biomedical research. Since its development over 50 years ago, technology for flow cytometry has progressed rapidly, allowing for the detection of more and ...

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

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 ...

Becton, Dickinson and Company BDX, popularly known as BD, recently announced the global commercial launch of BD Research Cloud 7.0, marking another step forward in its AI-driven life sciences strategy ...

In recent years, antibodies have become an incredibly popular therapeutic target – with monoclonal antibodies (mAbs) becoming an ever more widely used therapy for a number of diseases, including ...

How do we “name” a cell and assign its identity? How do we know that we are all talking about the same cells? How do we agree on what it takes to confidently correlate previous with current research ...

Flow cytometry is widely used in areas of research that require analysis or isolation of cells from suspension. This technology makes use of fluorescent probes targeted to specific cell-associated ...

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 ...

Flow cytometry is a powerful method for the quantification of microorganisms, unparalleled by other technologies. We will (1) give an overview of the benefits and use cases of flow cytometry for ...

Flow cytometry is well adept for use in routine cell analysis workflows, allowing for the high-throughput characterization of large cell populations. As a result, flow cytometry has established itself ...