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The cells of the neurovascular unit also make up the blood–brain barrier (BBB), which plays an important role in maintaining the microenvironment of the brain. [11] In addition to regulating the exit and entrance of blood, the blood–brain barrier also filters toxins that may cause inflammation, injury, and disease. [12]
The endothelium (pl.: endothelia) is a single layer of squamous endothelial cells that line the interior surface of blood vessels and lymphatic vessels. [1] The endothelium forms an interface between circulating blood or lymph in the lumen and the rest of the vessel wall.
These systems can also be developed incorporating brain endothelial cells to mimic the blood–brain barrier, making this an extremely useful model for BBB dysfunction in Alzheimer's disease, screening novel therapeutics potential to pass from the blood into the brain, therapeutic pharmacokinetics, as well as drug adsorption, distribution ...
The BBB is composed of endothelial cells restricting passage of substances from the blood more selectively than endothelial cells of capillaries elsewhere in the body. [9] Astrocyte cell projections called astrocytic feet (also known as "glia limitans") surround the endothelial cells of the BBB, providing biochemical support to those cells. [10]
The blood–brain barrier is formed by special tight junctions between endothelial cells lining brain blood vessels. Blood vessels of all tissues contain this monolayer of endothelial cells, however only brain endothelial cells have tight junctions preventing passive diffusion of most substances into the brain tissue. [1]
The location of the cerebral microbleed determines whether it is more likely to have been caused by hypertension or CAA. Tsai et al. conducted amyloid PET imaging in an Asian population with cerebral amyloid angiopathy–intracerebral hemorrhage and noticed that superficial cerebellar microbleeds are related to CAA, whereas deep or mixed ...
The blood–brain barrier consists of astrocytes and pericytes joined with adhesion proteins producing tight junctions. [1] Return of blood flow to these cells after an ischemic stroke can cause excitotoxicity and oxidative stress leading to dysfunction of the endothelial cells and disruption of the blood-brain barrier. [1]
Various cell types in the brain may produce cytokines and chemokines such as microglia, astrocytes, endothelial cells, and other glial cells. Physiologically, chemokines and cytokines function as neuromodulators that regulate inflammation and development. In the healthy brain, cells secrete cytokines to produce a local inflammatory environment ...