Science is currently discussing how drinking the right water during the different stages of life can speed up or slow down the metabolism of the cells that make up organisms, including the human body. Although it sounds like science fiction, since 1939 it has been known that deuterium oxide has a certain relationship with the biosynthesis and prolongation of the half-life of some neurotransmitters, this is particularly important since this oxide seems to slow the growth of tumors. Indeed, at the beginning of the 21st century, Mikhail Shchepinov, concluded that deuterium or enriched hydrogen acts in the body, strengthening cells against the attack and deterioration caused by free radicals, attacks frequently linked to Alzheimer’s, Parkinson’s and other disorders typical of senile age.Therefore, how the deuterium depleted water is beneficial for medical point of view will educate you in this discussion.
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What is truly interesting is that little by little technology is accounting for the worldwide distribution of the different hydrogen oxides or waters that various human settlements drink, thereby opening a window to refine and define the famous blue areas, characterized by its high percentage of long-lived people.
Scientists from the Institute of Medicine (Russia) have discovered how reducing the concentration of deuterium depleted water in water affects reactions in living organisms. As it turned out, this type of reaction proceeds faster compared to the case when deuterium depleted water is completely replaced by hydrogen. The article was published in the Chemical Engineering Journal.
The heavy isotope of hydrogen (deuterium, in whose nucleus there is an “extra” neutron) is present in any water of natural origin. In ordinary drinking water, the proportion of deuterium does not exceed 0.015%. However, if the concentration of deuterium depleted water is higher or lower, the biological properties of the water can change. For example, previous studies have shown that deuterium-deficient water can have an antitumor, antidote, and metabolic effect, and can affect the vital signs of cell cultures in aquatic environments.
For the molecular level of the organization of life, the RUDN scientists studied the autorotation of galactose, that is, the rotational transformation of the molecule; for the supramolecular level, destabilize-lysozyme enzyme activity; for pharmaceutical substances, the solubility and biphasic distribution, as well as the life rate of living cells in water of various isotopic compositions.
As it turned out, the constant of the optical rotation speed for L-galactose was twice lower than for D-galactose with a small deuterium content, regardless of the specific concentration, while in heavy water no primer autorotation was observed.
When examining suspension systems, the dissolution rate of active drug substances was studied. Dissolution occurs faster when the concentration of podium is higher than that of deuterium. This corresponds to the normal kinetic isotope effect and confirms the importance of choosing the isotopic composition of solvent to speed up the process.
Changes in the isotopic composition of water also affected the behavior of living cells: in the water with the lowest deuterium content, cells of single-celled organisms of the Spirostomum species were immobilized up to 8 times faster.
These discoveries may be useful for future biomedical and therapeutic studies, where deuterium depleted water can be considered as a regulator of the biological properties of normal or cancerous cells.