Choroid Plexus of Brain Ventricles

The choroid plexus of the cerebral ventricle is the tissue inside the ventricles of the brain. It is also called the choroid plexus. It is one of the oldest tissues in the body. Its development begins in the embryo and continues constantly. It contains tiny vessels called retinal neurons or



Choroid Plexus of Brain Ventricles: Role and Structure

The choroid plexus of the cerebral ventricles, also known as the plexus choroideus, is an important part of the central nervous system. This unique complex of vessels and epithelial cells plays a critical role in maintaining brain homeostasis and performs several important functions related to the production, filtration, and circulation of cerebral spinal fluid (CSF).

The structure of the choroid plexus of the cerebral ventricles consists of a network of capillaries surrounded by epithelial cells known as choroidal epithelial cells. These epithelial cells form a coating that provides a barrier between the blood and the CSF. They possess specific structural features, such as microvilli and close cell-cell junctions, that help maintain the unique functional properties of this choroid plexus.

One of the main functions of the choroid plexus of the ventricles of the brain is the production of cerebral spinal fluid. Choroid epithelial cells actively secrete CSF components from the blood into the cavities of the ventricles of the brain. This process includes transport



Choroid plexus of the ventricles of the brain (syn. villous plexus, choroid plexus, choroid plexus).

The choroid (villous plexus) is a wall-blooded tissue located in the inter-personal space of the deep hemispheres, forming the plexus itself (see the immediate global map of the above-mentioned specialized literature) and consists of 3 main cell types: tyrosolite, sinevosolite and erythrocyte. Cells of the tyrosolytic form form the basis of the sucker, cells of the sinevasolytic form form the so-called suppressor layer, and the whitish cells of the apical sucker are called erythrocytes. Tyrozoly is of great importance in losing the appearance of its neighborhood, capable of destroying rubbish