As someone who has spent the last decade driving the advancement of flow cytometry technology and its real-world applications ...

Imagine being tasked with counting every blade of grass in a field, noting every single species as you go. This is not far ...

Researchers have validated an AI-assisted flow cytometry system that can analyze complex immunological data in under five minutes per case, matching expert accuracy. The DeepFlow™ platform ...

While flow cytometry has become a prominent technology in both research and clinical laboratories, the sample preparation workflow is often still highly manual. Variabiability in this workflow, as ...

Flow cytometry is a high-throughput, laser-based analytical method used to quantify physical and biochemical characteristics of individual cells or particles suspended in fluid as they pass ...

Flow cytometry is a key diagnostic technique in hematology that provides protein information at a single-cell level. Traditionally interpreted manually in a sequence of two-dimensional plots, ...

Plasma cell disorders present challenges in phenotypic determination, as they range from monoclonality of plasma cells to multiple myeloma and plasma cell leukemia. According to World Health ...

Erythropoiesis occurs through specification from multipotent progenitors to erythroid restricted potential, expansion of erythroid progenitors, and terminal maturation of precursors to red blood cells ...

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 ...