Flow cytometry is a crucial technique for many scientists because it allows them to rapidly detect, sort and analyse cells with particular characteristics. But traditional flow cytometry can be a ...

Over the past decade, flow cytometry has undergone transformative advancements, notably with the adoption of spectral flow cytometry and the emergence of next-generation imaging cytometers. These ...

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 ...

Cell processes are complex and are controlled through dynamic intracellular signaling. To better understand these processes, flow cytometry is used to phenotype cells by taking their dimensions and ...

High dimensional full spectrum flow cytometry grants unprecedented access to previously unattainable parameters in cellular biology. Fluorescent dye performance heavily impacts both the quality and ...

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 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 ...

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, ...

Around the same time, Mack Fulwyler, an engineer working at Los Alamos National Laboratory, needed to separate particles, so he drew on existing techniques to create droplets to separate cells from a ...