^^^GREAT SUGGESTION ..this is another one of our hott-sellers
▼▼▼BELOW IS SOME QUICK GENERAL "INTERNET" INFO FOR THE BOARD:
What is Epithalon, and How Was it Discovered?
Epithalon is a synthetic version of an extract called epithalamin. It was discovered in the 1980s by Professor Vladimir Khavinson, a Russian scientist who currently serves as Director of the Saint Petersburg Institute of Bioregulation and Gerontology.
Khavainson had been tasked with finding a way to help military troops heal from battlefield damage. He harvested epithalamin from pineal glands of calves and discovered that certain chains of amino acids known as peptides could regenerate tissue and restore function to various organs and tissues that had fallen into disrepair.
However, since epithalamin was difficult to harvest from animals in large amounts, he found a way to create a synthetic version (epithalon), which is widely prescribed today for its anti-aging properties.
How does Epithalon Work?
Epitalon helps to increase the body’s production of telomerase, an enzyme responsible for replicating DNA so that the body can repair damaged cells and create new ones.
Cell division is an important part of a healthy body. In our younger years, we produced high amounts of telomerase, but this amount declines as we age. This means cells don’t divide as fruitfully or repair themselves as fully as they did in our teens and twenties.
How does this lack of cell division affect our bodies? We generally refer to the effects as “aging.” Wrinkles in the skin appear, our physical strength begins to fade, metabolism isn’t what it used to be, and it gets harder to pull details from our memory. Our immune system weakens, and we become more vulnerable to deadly diseases and conditions.
And now the good news: by using epithalon, you can bring those telomerase levels back and fight back against the effects of aging.
By activating the telomerase genes, epitalon improves the cell’s ability to go through multiple divisions. Cell division is an important component of many functions, but cells have a limited number of divisions in them as telomerase production slows in older age. Epithalon gives a substantial boost to this process and gives the cells renewed life to divide and prosper.
By extending the lifespan of the cell, it gives the entire body an extension of life
Benefits of Epitalon:
Epitalon increases Telomerase production = lengthens Telomeres = Anti-Aging
..some of the resulting benefits include:
- Increases lifespan by lengthening telomeres in human cells
- Promotes deeper sleep
- Delays and prevents of age-related diseases such as cancer, heart disease, and dementia
- Acts as an antioxidant by reducing lipid oxidation and ROS (Reactive oxygen species) along with normalizing T cell function
- Improves skin health and appearance
- Heals injured and deteriorating muscle cells
- Restores and normalizes melatonin levels in those who have lost some pineal function due to aging
- Can increase resistance to emotional stress
Research:
- Anisimov, V.N., Khavinson, V.K. (2009). The use of peptide bioregulators for cancer prevention: results of 35 years of research experience and perspectives. Voprosy Onkologii [Russia]. 55(3):291-304.
- Khavinson VKh, Bondaev IE, Butyugov AA, Smirnova TG. Peptide promotes overcoming of the division limit in human somatic cell. Bull Exp Biol Med. 2004 May;137(5):503-6.
- Bartsch, C. & Bartsch, H. (2000). Pineal gland and cancer – An epigenetic approach to the control of malignancy: Evaluation of the role of melatonin. Madame Curie Bioscience Database [Internet]. Austin (TX): Landes Bioscience; 2000-.
- Christensen, K., Thinggaarda, M., McGue, M., Rexbye, H., Hjelmborg, J.B., Aviv, A., … Vaupel, J.W. (2009). Perceived age as a clinically useful biomarker of aging: cohort study. Bio Medical Journal (online). 339:b5262.
- Dilman, V. M., Dean, W., Fowkes, S. W., & Dilman, V. M. (1992). The neuroendocrine theory of aging and degenerative disease.Pensacola, FL: Center for Bio-Gerontology.
- Khavinson., V.K. (2002). Peptides and aging. Neuroendocrinology Letters [ special issue]. p. 144.
- Khavinson, V.K., Bondarev, E., Butyugov, A.A. (2003). Epithalon peptide induces telomerase activity and telomere elongation in human somatic cells. Bulleting of Experimental Builogy and Medicine. 135(6): 590-592.
- Khavinson, V.K., & Morozov, V. (2003). Peptides of pineal gland and thymus prolong human life. Neuroendocrinology Letters. 24:233-240.
- Korkushko, O.V., Khavinson, V.K., Shatilo, V.B., Magdich, L.V. (2004). Effect of peptide preparation epithalamin on circadian rhythm on epiphyseal melatonin-producing function in elderly people. Bulletin of Experimental Biology and Medicine [Russia]. 137(4): 127-146.
- Labunets., I.F., Butenko, G.M., Magdich, L.V., Korkushko, O.V., Khavinson, V.K., Shatilo, V.B. (2004). Effect of epithalamin on circadian relationship between the endocrine function of the thymus and melatonin-producing function of the pineal gland in elderly people. Bulletin of Experimental and Biological Medicine [Russia]. 137(5):617-619.
- Terry, D.F., Nolan, V.G., Andersen, S.L., Perls, T.T., Cawthon, R. (2008). Association of longer telomeres with better health in centenarians. The Journals of Gerontology Series A, Biological and Medical Sciences. 63(8): 809-812.
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