Flow cytometry, which is a staple tool of eukaryotic cell biologists, is gaining popularity among microbiologists and the use of this technique is described here. The applications of microfluidic ...
3.Microfluidic Flow Cytometry: Enables high-throughput analysis of small sample volumes, making it ideal for rare cell populations and high-throughput screening applications. 4.Flow cytometry ...
To support physicians in treating cancer patients, oncology laboratories can benefit from adopting end-to-end automation of flow cytometry workflows. Rapid advances in automation are improving ...
Cancer, a complex and often feared disease, arises when normal cells undergo genetic changes and begin multiplying uncontrollably. But the most dangerous aspect of cancer is metastasis – the process ...
Atherosclerosis cardiovascular disease (ASCVD)-related mortality is higher in patients with lupus nephritis (LN) compared ...
Megakaryocytes form a three-dimensional (3D) cage composed of laminin and collagen IV connected to the basement membrane surrounding them. This microarchitecture stabilizes megakaryocytes within their ...
Flow chemistry is the development and study of chemical reactions whereby reactants are combined by pumping fluids, including solutions of reagents, through tubes at known rates. The relative ...
Traditional static 2D culture systems, where cells are grown as a monolayer on flat surfaces, fall short of capturing the complexity and physiological ...
Fluidigm Corp creates, manufactures, and markets technologies and life-science tools focused on the exploration and analysis of single cells, as well as the industrial application of genomics, based ...