In the late 1980s, Professor Vladimir Khavinson of the University of St. Petersburg in Russia made the groundbreaking discovery of epithalamin. Since then, it has been the subject of considerable research. Various names, including Epitalon, Epithalon, Epithalone, Epithalamine, and Epithalamin, have been attributed to this substance. Because the Russian inventor owns all of the patents for this tetra-peptide, the Western large pharma sector is not particularly interested in this compound. As a result of the lack of promotion often associated with large pharma goods, the chemical remains relatively obscure in the Western world. Russian experimental studies are now underway, with promising findings for liver diseases, neuropathology, psychiatry, and geriatrics, among other conditions in the future.
What is Epithalon?
This compound, also known as Epithalon, Epitalon, or Epithalone, is a synthetic form of the polypeptide Epithalamin, which is generated in the organism of every living being. It is secreted in the epithalamium-epiphyseal area of the brain, where this pineal peptide preparation is produced. Most notably, it is believed to be responsible for regulating metabolism in the epiphysis, increasing the sensitivity of the hypothalamus to natural hormonal effects, restoring normal function to the anterior pituitary, and regulating the amounts of gonadotropins and melatonin in the organism. Epithalamin is a substance that has been hypothesized to improve an organism’s ability to cope with emotional stress while simultaneously acting as an antioxidant.
Epithalon Peptide: Telomerase Activation and Elongation
Studies suggest that Epitalon may be one of the few chemicals capable of activating the Telomerase (telomere terminal transferase) enzyme in research models, making it a rare and valuable commodity. Telomerase is a protein that renews (elongates) the telomeres of DNA, which are important for protecting the DNA from damage and cancer-causing mistakes.
When aged cells were exposed to Epithalon in culture, the telomeres were hypothesized to have elongated to a size similar to the telomeres’ length during the first cell divisions. Cells with extended telomeres presented with Epitalon appeared to have produced an additional ten divisions (44 passages) in contrast to control cells and continued to divide. As a result of circumventing the Heyflick cell division limit, Epithalon was believed to extend the life cycle of normal human cells by several days.
Epithalon Peptide and Aging
Research indicates that immune and neuroendocrine system alterations associated with age may be reduced with Epitalon, as is the frequency of recurring infections and chronic illnesses. Epithalamin has been suggested in long-term experimental studies to correct an imbalance in the peroxidation and antioxidation systems in research models with age-related diseases.
The results of a 12-month exposure to Epithalon in research models with accelerated aging postulated a normalizing impact on their metabolism and the state of different functional systems. Uric acid, alkaline phosphate, and cholesterol levels in elderly research models were theorized to recover to normal after ten days of exposure. According to the study results, they seemed to have remained constant for many months after that.
Epithalon Peptide Properties
Epithalamin (Epitalon) was hypothesized to have exhibited the following pharmacological characteristics in experimental studies, as speculated by Epitalon’s researchers:
- According to the findings, telomerase activation (and, as a result, elongation of Telomeres) controls the neuroendocrine system and enhances the hypothalamus’ sensitivity to endogenous hormone impacts.
- A reduction or inhibition of proliferative alterations in the vaginal epithelium and endometrium characterizes the anovulatory phase.
- normalization of the levels of gonadotropic hormones (FSG, LG, prolactin)
- Influence on peripheral hemodynamics that is helpful: improved rheology of the blood, decreased thrombogenesis of the intravenous vessels
- Acute inflammation is characterized by a reduction in the levels of reactants (c3 component of the complement, prealbumin, C-reactive protein, alpha-orosomucoids) during the acute phase.
- T-cell immunity is being restored to normal levels.
- Normalization of the indicators of the aqua-electrolyte balance
- Lowering of uric acid levels to normal levels
- Rejuvenation and strengthening of the immune system in the context of cholesterol normalization
- Carcinogens that occur naturally or are induced are inhibited (tumor prevention)
Suppose you have a license and are interested in the above-mentioned subjects. In that case, you can buy epithalon in the USA and further extend the research on this compound.