The lateral ventricle, along with the rest of the cavitiesin the brain, is part of a common system in which the cerebrospinal fluid circulates. They communicate with the subarachnoid space of the spinal cord. The inner surface of these cavities is lined with ependyma. Their function is to maintain an optimal range of pressure inside and outside the brain and spinal cord.
The lateral ventricle (s) are small cavities inlarge brain, which produce a specific cerebrospinal fluid. They are considered to be the largest of the ventricular system. This pair formation, and for it there is a specific topography.
The left lateral ventricle, by tradition, is calledfirst. And the right one is second. They are symmetrical between themselves and the neighboring anatomical formations, and are located below the epiphysis on either side of the median line. In each ventricle, the body and horns are distinguished: anterior, posterior and inferior. The lateral ventricles through the holes of the Monroe are connected to the third ventricle.
The third ventricle is located between the regions,responsible for vision. It has the form of a ring and in its wall there is a gray matter of the brain containing vegetative ganglia. In addition to the lateral ventricles, this cavity is connected to the water supply of the brain.
The fourth ventricle lies between the lower cerebellum.In form it resembles a pyramid and it is more correctly called a diamond-shaped fossa. In addition to cerebrospinal fluid, most of the nuclei of the spinal nerves are located at the bottom of this fossa.
The lateral ventricle (s) are only partially implicatedto such a concept as the vascular plexus. The bulk of these structures are located in the roofs of the third and fourth ventricles. They are responsible for most of the production of cerebrospinal fluid. In addition to them, this function is performed directly by the nervous tissue, as well as ependyma, which covers the inside of the ventricles of the brain.
Morphologically, the vascular plexuses are the outgrowths of the pia mater, immersed in the ventricles. Outwardly these protrusions are covered with a cubic specific chrooid epithelium.
The lateral ventricles of the brain are lined from the inside by a speciala tissue that can, how to produce a cerebrospinal fluid, and absorb it. This helps to maintain the optimal amount of fluid in the cavity and prevent increased intracranial pressure.
The cells of this epithelium have many organelles anda large nucleus. Their outer surface is covered with a large number of microvilli, they help advance the cerebrospinal fluid, as well as its absorption. Outside the ependyma, Colmer cells are located, which are considered to be a special kind of macrophages capable of moving through the body.
Through multiple small lumens in the basalmembrane epiendomocytes in the cavity of the ventricles sweat plasma blood. To her are added proteins, produced directly by the cells of the inner epithelium of the brain cavities, and so the liquor is obtained.
The body and horns of the lateral ventricles with their internal lining form a blood-brain or hematolymph barrier. It is a collection of tissues arranged in a certain order:
- Cytoplasm of endothelium of capillaries;
- connective tissue containing macrophages;
- basal membrane of the endothelium;
ependyma cells;
- basal membrane of ependyma.
Such a complex construction is necessary in order to prevent the ingestion of metabolic products, drugs and other toxic substances into the cerebrospinal fluid.
The norm of the lateral ventricles is the production of half a litercerebrospinal fluid per day, but only one hundred and forty milliliters of this amount is constantly circulating in the subarachnoid space. Despite the fact that the basis for cerebrospinal fluid is blood plasma, they have significant differences in the number of electrolytes and protein. The first is much higher, and the second is lower. In addition, there is a small amount of lymphocytes in the CSF. The reverse absorption of cerebrospinal fluid occurs at the sites of vascular plexus insertion.
The following liquor functions are distinguished:
- detoxification (transportation of metabolic products);
- depreciation (when walking, falling, sharp bends);
- the formation of a hydrostatic shell around the elements of the nervous system;
- maintaining the constancy of the composition of liquids in the central nervous system;
- transport (transfer of hormones and some drugs).
When one lateral ventricle (or both)produce more fluid than they can absorb, develops a pathological condition such as hydrocephalus. The internal volume of the ventricles of the brain gradually increases, squeezing the brain tissue. Sometimes this leads to irreversible ischemia and necrosis.
In newborns and young children, symptomsThis disease is the disproportionate size of the cerebral cranium as compared to the facial, the bulging of the fontanelles, the child's unreasonable anxiety, turning into apathy. In adults, there are complaints of headache, pain in the eye, nausea and vomiting.
For diagnostics methods are usedNeuroimaging: magnetic resonance therapy or computed tomography. Timely detection and treatment of this disease can avoid a significant number of complications and preserve the possibility of normal life.
