Blood-cells under the Electron Microscopedoi:10.1016/S0140-6736(50)90909-3NoneElsevierLancet
White blood cell, cellular component of blood that helps defend the body against infection. White blood cells defend against infection and disease by ingesting foreign materials and cellular debris, by destroying infectious agents and cancer cells, or by
When your blood goes through the centrifuge, a spinner, the blood cells spin to the bottom to make a sediment, and the clear liquid on top is called plasma. The laboratory technicians will put the sediment under a microscope and will examine it and count how many red blood cells, white ...
In mammals, the BNB is generally considered the second most restrictive mammalian microvascular barrier after the blood-brain barrier6,8,9,10,11,12.In situ, endoneurial microvessels share their basement membrane with pericytes that may act as specialized smooth muscle cells that regulate the microva...
Deoxyribonucleic acid (DNA) is the blueprint of life, and cost-effective methods for its long-term storage could have many potential benefits to society. Here we present the method of in situ cryosilicification of whole blood cells, which allows long-ter
Liver vasculogenesis in vertebrates occurs through the interaction of endoderm-derived liver epithelium and mesoderm-derived endothelial cells (ECs). In zebrafish, although it has been found that ECs are not required for liver budding, how and when the spatio-temporal pattern of liver growth is ...
Moreover, blood plasma contains not only proteins secreted by the liver but also proteins secreted from immune cells (CFP, immunoglobulin) or proteins of low tissue specificity, such as MMP2 and SOD3, which may contribute to observed differences in blood protein levels and mRNA abundance. In ...
The complex organization of the blood–brain barrier (BBB) is not only attributed for the exchange of passive diffusion/efflux of solutes in the blood or for the active transport of nutrients to the brain, but also for regulating the migration of circulating immune cells. Of interest, the dyna...
Recent research in artificial cell production holds promise for the development of delivery agents with therapeutic effects akin to real cells. To succeed in these applications, these systems need to survive the circulatory conditions. In this review we
and cultured on gelatin-coated flasks in Endothelial Cell Growth Medium 2 (Promocell, C-22011) in a humidified incubator supplemented with 5% CO2. The cells were subcultured every three days at a ratio of 1:4. Cell culture images were taken using a Nikon Eclipse TS100 microscope and a Nik...