The thyroid gland (lat. glandula thyr(e)oidea) is gormonalnoj gland (an endocrine gland), which is located in the neck below the larynx in front of the trachea. In humans it has the shape of a butterfly and is located below the thyroid cartilage. The main function of the thyroid gland is to store iodine and the formation of iodine-containing thyroid hormones such as triiodothyronine and thyroxine, as well as the peptide hormone calcitonin. Synthesis of iodine-containing hormones (jodianne) of the thyroid gland occurs in the epithelial follicular cells called thyrocytes. These hormones play an important role in energy metabolism and growth of individual cells and the whole organism. Calcitonin, a peptide hormone that is synthesized in the parafollicular or C-cells of the thyroid gland. He compensates for the wear and tear of the bones by incorporating calcium and phosphate in bone and prevents the formation of osteoclasts, which, when activated, can cause destruction of bone tissue, and stimulates the functional activity and proliferation of osteoblasts.
The thyroid gland is the starting point for many diseases, which among other things, can disrupt endocrine metabolism. Thyroid disease can occur on the background of unmodified, low (hypothyroidism) or high (hyperthyroidism, thyrotoxicosis) endocrine function. Found in certain areas of iodine deficiency can lead to the development of endemic goiter and even cretinism.
The role of thyroid gland peptides
The optimal functioning of the endocrine system of humans is directly related to the optimal interaction of all the endocrine glands of the body and, thus, with the condition of the thyroid gland. Scientific knowledge proves 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 cells of the thyroid, among other things, tissue-specific peptides (peptides in the pancreas) 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 of the body.
Cells of the thyroid produce certain types of proteins. Some of them are responsible for the generation of peptides that regulate the cells of the thyroid. The peptides of the thyroid are components of protein molecules in the thyroid. In the metabolism of proteins (the protein fraction) they are removed. One of the most important tasks of the peptides of the thyroid is to activate the reading of the genetic information of the DNA in the cells of the thyroid. Thus peptides play a role in "key DNA". The peptides of the thyroid start protein synthesis in the cells of the thyroid, regulate metabolism in the cells of the thyroid and regulate their activity. Peptides cause the cell to function as biologically necessary. As a young healthy body. When the tissue cells of the thyroid are functioning well, and thyroid works well. If in normal cell function of the thyroid violations occurred, respectively, and thyroid, as a body, is bad. This leads to impaired function of the gastrointestinal tract. Therefore, the corresponding presence of peptides in the thyroid in the body, is very important.
In the young organism peptides, as a rule, are formed in sufficient quantity and cells of the thyroid working 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. As a result of this peptide thyroid produces 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 the conditions in which it operates thyroid, the higher the need for tissue-specific peptides (peptides in the thyroid) and the faster arise in the cells of the thyroid 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 the cells of the thyroid and accelerated wear or aging tissues of the thyroid.
In such situations it is useful specifically poddergivat cells of the thyroid gland. One of the most effective methods for this is the use of peptides of the thyroid gland of animal origin. In all mammals, the peptides are the same. In numerous studies, scientists have shown that if you take the peptides selected from the thyroid gland 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. Ie, they apply only in the tissue from which they were originally allocated. Through the use of the peptides of the thyroid gland in the body is enriched pool of regulatory peptides of the tissues of the thyroid gland. Thus, the use of peptides of the thyroid gland helps to normalize and maintain a physiologically normal levels of peptides in the cells of the thyroid gland. This, in turn, leads to normalization of metabolism in the cells of the thyroid gland and normalization of their functions to physiologically normal levels. Normalization of cell function leads to normalization of the thyroid gland and the endocrine system.
The peptides of the thyroid gland - clinical studies
In a clinical study determined the effectiveness of the peptides of the thyroid gland in the complex restoration of the thyroid gland after perenesennyj diseases of various origins, under pathological conditions, leading to dysfunction of the thyroid gland, the effects of extreme environmental factors, poor diet, staying on the territory of the endemic diseases of the thyroid gland, as well as during aging.
When using the peptides of the thyroid gland was noted that they have a pronounced regulatory action. Regardless of what endocrine function was observed in the thyroid gland, low (hypothyroidism) or high (hyperthyroidism, thyrotoxicosis), restoring normal levels of peptides in the thyroid gland, due to their acceptance, led to normalization of its functions.
The peptides of the thyroid gland - featured applications
- complete restoration of function of a thyroid gland after diseases of different genesis
- pathological conditions, leading to dysfunction of the thyroid gland
- the impact of extreme environmental factors
- accommodation on site, endemic diseases of the thyroid gland
- during aging
- metabolic disorders
- prevention of diseases of the thyroid gland
- hypo- and hyperthyroidism
- autoimmune thyroiditis
- nodular toxic and nontoxic goiter
- for maintaining the functional activity of the thyroid gland during aging
Areas of application on the basis of the biological effects of the active substances in the product, on the basis of scientific data and practical experience.