Flow cytometers are becoming the instrument of choice in a growing number of applications, including marine biology, cancer biology, drug screening, cell-cycle analysis, intracellular analysis, rare ...

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, ...

Scientists prepare samples as single cell suspensions and labels components of interest with fluorescent antibodies or other probes. The cytometer uses pumps to draw the sample through tubing to ...

Scientists use multicolor flow cytometry to identify and characterize targeted cellular subpopulations by using multiple fluorescent markers. The technology has seen rapid advancements in recent years ...

Subjectivity in flow-cytometry data analysis has long been a challenge. Recent advancements in high-speed camera capabilities have led to the integration of morphological features with traditional ...

Immunological research often involves managing complex and delicate samples, such as limited patient biopsies, rare cell populations, sensitive cells, and large volumes of naturally diluted samples.

After five decades of use, flow cytometry is entrenched in biomedical science. Besides enabling the quick processing of cells in suspension, flow cytometry provides quantitative results across ...