The central nervous system, or briefly the CNS, people called neural structure located in the brain and spinal cord, which is the central organ of perception and processing of stimuli, i.e., to perform the integration and coordination of incoming sensory stimuli from the periphery. In addition, the Central nervous system is the location of the start of voluntary movements, allowing him to make a purposeful reaction in accordance with the environmental conditions. The CNS is also the location of the unconscious and conscious thinking.
Nervous tissue of the CNS due to their macroscopic aspect is divided roughly into two substances: white matter (lat. substantia alba) and gray matter (lat. substantia grisea). Gray matter is on the surface of the brain (the cerebral cortex) and in the inside of the spinal cord. It consists mainly of cell bodies (somata) of nerve cells. White matter, respectively, consists primarily of a long cylindrical nerve cells (axons), i.e. from the neural wiring that runs between nerve cells.
In humans and other vertebrates, the term central nervous system refers to the brain and spinal cord together as one. Thus, this system restricts itself from the peripheral nervous system, which consists partly of extensions of nerve cells of the central nervous system.
The cerebral cortex (lat. cortex) is a collection of nerve cells, which is a thin layer of neural tissue with many folds covering the cerebral hemispheres. This is the most developed region of the brain. The cerebral cortex performs the highest functions, such as processing sensory perceptions, to see, to read, to speak, to hear, planning and execution of voluntary movements, consciousness, complex thinking, personality, etc.
The role of peptides of the cerebral cortex
The optimal functioning of the Central nervous system of a person is directly related to the condition of nerve cells. Modern scientific knowledge to prove that the health of the body depends on the health of individual cells. Function cells are well, then organs and organ systems work well. In order for cells worked well, they must continuously and in sufficient quantity to supply the necessary nutrients. But this one, in accordance with the latest scientific knowledge, is not enough.
For over 30 years, as scientists, doctors discovered that, for the normal functioning of cells, among other things, necessary and peptides. Peptides are small data molecules, short chains of amino acids, the address coordinates of genes. Peptides are formed in the cells of various tissues of the body during protein metabolism. Their main function is to activate the reading of the genetic information in DNA. Thus they initiate protein synthesis in cells and regulate their proper functioning. Scientists have found that deficiency of peptides in the body resulting in impaired functions in cells, cellular dysfunction, accelerated "wear" fabrics, development of pathological conditions and accelerated aging of the body. At the same time, they many studies have shown that the use of peptides and remove deficiency of peptides in the body not only contributes to the regulation of cell functions but even lost cell function can thus be restored.
For normal functions will require nerve cells, among other things, tissue-specific peptides (peptides and nervous tissue) that support and regulate their functions. In a small number of these peptides can be ingested with food, but the main part is formed in the cells, namely the cells of the nervous tissue.
Cells of nervous tissue, producing various kinds of proteins. Some of them are responsible for the generation of peptides that regulate the cells of the nervous tissue. The peptides of the nervous tissue are components of the protein molecules of the nervous tissue. In the metabolism of proteins (the protein fraction) they are removed. One of the most important tasks of the peptides of the nervous tissue is the activation of the reading of the genetic information of the DNA in the cells of the nervous tissue. Thus peptides play a role in „key DANN“. The peptides of the nervous tissue trigger protein synthesis in cells of the nervous tissue, regulate metabolism in these cells and regulate their activity.
In the young organism peptides, as a rule, are formed in sufficient quantity and cells of the nervous tissue work well. But with age, especially under the influence on the organism of a large number of different negative and stress factors (illness, stress, physical stress, bad and insufficient food, and so on) occurs in the body, as is known, the decrease in protein synthesis. In the peptides of the nervous tissue is formed also less. The more intense is the load, the faster is depleted in the body the level of peptides. The result of this is the lack of regulatory peptides. This leads to disruption of cell function, development of pathological conditions and accelerated wear of the main systems of the body. The more extreme conditions of the nervous system, the greater the need for tissue-specific peptides (peptides neural tissue) and the faster arise in cells of the nervous tissue of various errors and failures of their functions, if this requirement is not covered properly. This, in turn, can lead to the loss of some important functions of cells of the nervous tissue and accelerated wear or aging tissues of the nervous system.
In such situations it is useful to purposefully support cells of the nervous tissue. One of the most effective methods for this is the use of peptides in the nervous tissue of animal origin. In all mammals, the peptides are the same. In numerous studies, scientists have shown that if you take the peptides, the selection of the nervous tissue (in particular from the cerebral cortex) of animals, for example from calves or pigs, and enter them into the body of another animal or person, they are accepted by the body as its own substance. Peptides have tissue-specific function. That is, they apply only in the tissue from which they were originally allocated. Through the use of the peptides of the cerebral cortex in the body is enriched pool of regulatory peptides in the nervous tissue. Thus, the use of peptides in the cerebral cortex helps to normalize and maintain a physiologically normal levels of peptides in the cells of the nervous tissue. This, in turn, leads to normalization of metabolism in the cells of the nervous tissue and normalize their functions to physiologically normal levels. Normalization of cell function leads to normalization of the functions of the nervous tissue and functions throughout the Central nervous system (CNS).
Peptides of the cerebral cortex - clinical studiesIn a clinical study found efficiency of the peptides of the cerebral cortex in the complex restoration of the functions of the Central nervous system after perenesennyj diseases of various origins, in pathological conditions, resulting in impaired function of the brain, when exposed to extreme environmental factors, poor diet, and during aging. On the basis of the obtained experimental data is legitimate to conclude Otomi that the inclusion of spare capacity of the cerebral cortex using peptides selected ISI cortex, helps to improve integrated brain function. The use of peptides in the cerebral cortex does not cause any side effects, complications or contraindications. The peptides of the cerebral cortex can be used with curative purpose, including in combination with any symptomatic treatment used in neurological practice (vascular, nootropic, resolving, anticonvulsant, vitamins and other). The use of peptides of the cerebral cortex is recommended to speed up the recovery of brain function after traumatic brain injury, stroke, intellectual disability disorders, effects on the body of various extreme factors. Their application also shows the elderly to maintain mental health.
Peptides of the cerebral cortex - recommended applications
- complete functional recovery of the Central nervous system after diseases of different genesis
- pathological conditions, resulting in impaired brain function
- normalization of brain activity on the background of atherosclerosis
- rehabilitation after stroke
- memory loss and impaired concentration
- Alzheimer and Parkinson
- multiple sclerosis
- chronic fatigue syndrome
- neuralgia and neuritis
- the impact of extreme environmental factors
- for maintaining the functional activity of the central nervous system during aging
Areas of applications based on the biological effects of the active substances, included in this product based on scientific evidence and practical experience.