Water in the Human Body is Informational Bearer about Longevity
Dr. Ignat Ignatov, Dr. Oleg Mosin
1. Entropy and time in living matter
Mankind has always been excited about longevity. Biophysical studies indicate that the water in the human body
has departed from the water at the time of origination of life (Semihina, Mosin, Ignatov). The more rapid the life processes are, the faster the states of orderliness are observed, i.e. entropy in the living organism decreases. Yet this leads to difficulties in compensating entropy with the entropy of the environment, which is associated with metabolism and energy. Such organisms, like mammals, can live up to 100 years. In trees the processes are slower, the states of orderliness are harder to obtain, and entropy decreases more slowly than in animals.
There are trees that live for more than 1000 years. For example, a turtle’s life processes are slower than those of mammals and faster than those of trees. It can live up to 300 years. We can define a specific time for each living creature, and their time to a certain degree differs from the time of the environment. This time correlates with parameters of the vital activity of living organisms (Ignatov, 2011). Entropy is a measure of randomness or disorder of the physical system. It is expressed in the number of possible arrangements of the components. Prigozhin received the Nobel Prize explaining that at a statistical level the chaotic states of living systems lead to an irreversible behavior. Self-structuring and self-organization are observed. He explains the auto-oscillatory reaction of Belousov–Zhabotinsky. Prigozhin shows how together with the increase of entropy, self-organization originates. According to the author, living organisms decrease their own entropy due to their orderliness. This orderliness increases with the transition from unicellular to multicellular organisms. Cells divide in a particular sequence. Living organisms live with their our own energy, and also exchange substances and energy with the environment. The environment increases its entropy and thus its disorder. Over time, the living organism has more and more difficulties to adapt. This adaptation depends on the consistency and velocity of life processes.
The Russian scientist Semihina studied the tangent of dielectrical losses physical indicator for water in different animals (Semihina, 2005). Names of animals in the figure from top to bottom – earth-worms (1), carassius fish (2), mouse (3), frog (4), hamster (5). The largest the extremities in this parameter, especially at 200 KHz or in the kilometer range of the e. m. waves, the highest level of evolutionary development of the animal.
Tangent of dielectrical losses of water of different animals, SemihinaThis is also an indicator for the
distancing of the water in the different animals from the initial water for the origination of life. This is also an essential evidence that water is diverse in the various living creatures. When testing water in animals, there are differences in comparison with water in plants and natural waters. In animals bioelectric processes are more dynamic compared to plants. Mineral water, which interacts with calcium carbonate and sea water, is tested as a model system. Therefore it is difficult to make conclusions about the structure of water from bioelectrical indicators in animals without a parallel spectral analysis. Semihina and Krashenyuk demonstrate results with a frog. When there is stress, one can observe a peak at 200 KHz, in a tranquil state the peak decreases. Additional tests are required in order to prove whether stress influences the structure of water.
The second law of thermodynamics states that the entropy of any closed system always strives toward an increase, i.e. increase of chaos. Living organisms are open systems, inside them entropy decreases andorder increases. In information theory, entropy is a measure for insufficiency of information in a physical system and is a function of probability. Entropy is infinite if probability is zero. According to Hawking, the second law of thermodynamics defines that the states of chaos significantly outnumber the states of order. He makes the assumption that in the beginning a system has a small number of orderly states. Over time, this system develops according to natural laws and its states change. At later stages, the states of chaos increase in number. Eventually, its states of chaos increase and so does entropy. He uses as an example the computer’s memory, which is based on the binary numeral system. The direction of time in which the computer saves the past is the same direction in which disorder increases.
In the 19th century the French scientist Brillouin defined entropy in information systems. On the grounds of biophysical information flows from the living creatures to the environment and vice versa, information properties and the entropy of water in living organisms are changed (Ignatov, Antonov, 1998). Biophysical parameters are introduced for a change of the average energy of the hydrogen bonds in water.
Informatiоnability of water is related to decrease of entropy in the restructuring of water molecules as a result of external influence (Ignatov, Antonov, 1998). In 2009 the Russian scientist Dulnev measured the parameters of chaos and order as parameters of entropy for one component in a living organism. Yet the living cell is multi-parameter with regard to biophysical parameters (Ignatov, 2011).
2. The reasons for aging
Aging is associated with accumulation of errors in DNA replication. The free radicals have an adverse affect on this process. Deuterium atoms in water molecules and radiation also have an adverse effect on DNA replication in the human organism. Aging is a non-linear process. The rate of aging increases with time. In 1963 Orgel demonstrated that the aging process is associated with the synthesis of proteins. The accumulation of errors in protein synthesis increases exponentially with age.
Probable dependence between accumulated DNA errors and cancer mortality (Orgel, 1963, Goodall, 2003)Cells taken from adults show reduced transcription or transmission of information from DNA to RNA. Therefore the likelihood of cancer increases with age.
Deuterium is a heavier isotope of hydrogen. It hinders vital processes in living organisms (Mosin, 1996). This isotope of hydrogen affects the process of mitosis (Dr. Lamprecht, Dr. Schroeter, Dr. Paweletz, 1989). This is an even distribution of genetic material from a mother cell to two daughter cells. Deuterium induces physiological, morphological and cytological changes in the cell. It is estimated that in his lifetime a man takes up 12-15 kg of deuterium.
The study of the water spectrum in the human body can also answer the question of longevity.
3. Water – the base of life and longevity
When considering the question of longevity, one has to analyze which are the areas inhabited by the largest number of long-lived people and what are the reasons for that.
In the process of development of each organism, water plays an important part – fundamental matrix of life with a structure, isotope composition and ability to store and transmit information. Living organisms consist of 65-70% water, 80% of the brain and 92% of the blood is also water. Water is part of the composition of the organism’s physiological liquids and plays the role of an internal medium where vital biochemical processes function with the participation of ferments. Because of this, water carries information in the organism regarding aging and longevity.
Human experience shows that long-living people inhabit mainly high mountain areas. In the Russian North there are a lot more centenarians compared to other parts of Russia. One explanation for this is that the water there contains less deuterium molecules (Berdishev, 1960). The same phenomenon occurs in the valley Hunza in Pakistan.
From 1960 to 1965 the scientist Berdishev from the Tomsk Medical Institute studied centenarians in Yakutia and Altai. He linked the longevity of the Yakuts and the Altaians with the use of water from glaciers formed earlier than the Greenland ones. It is well known that most of the Russian centenarians live in Dagestan and Yakutia – 353 and 324 persons per million inhabitants. This figure for Russia is only 8 people. According to Berdishev, defrosted water has a beneficial effect on cellular metabolism. Besides, these people as well as the Buryats, drink mountain water obtained after the melting of ice. The temperature of this water is 10-15 oC. Berdishev assumed that it contained a smaller amount of deuterium.
Hydrogen, Deuterium – Isotope of hydrogenThe report's authors consider the possibility of extending human life and reducing errors in transcription and replication of DNA in the synthesis of proteins depending on the water we drink. Analyses of water on the planet show that mountain water contains the smallest amounts of deuterium atoms in water molecules. In winter and early spring deuterium content is reduced.
According to isotopic composition, defrosted water can be regarded
"Diffused" ice structures in defrosted wateras water deuterium-depleted water or "light" water. Cold mountain water has crystal-like structure and consists of water clusters. With the melting of ice only 15% of hydrogen bonds are destroyed. In this way mountain water contains ice microcrystals. It is quite possible that for this reason defrosted water is beneficial for the body and improves the permeability of cell membranes
4. Clinical evidence for the health benefits of mountain and defrosted water
Experiments with plants and animals have shown that when using water containing 25-30% less deuterium atoms, pigs, rats and mice have an offspring that is bigger and more numerous. Birds that drink deuterium depleted water have accelerated development of their sexual organs and their spermatogenesis process is quickened, laying eggs increases almost 2 times. Wheat matures earlier and gives a richer harvest.
Scientists from the Royal Medical Institute in Stockholm report the successful treatment of diabetes with defrosted water. The water molecules in which the hydrogen atoms are of the deuterium isotope have difficulty passing through the cell membrane. Marinov reports rapid growth of flowers in Siberia. In the 1970s, together with Russian scientists, he proved that the water in the region contained less deuterium.
The radio protective properties (radiation protection) were first described by Varnavski in experiments with Drosophila melanogaster. The medical and biological properties of deuterium depleted water have been studied in the Department of General and Molecular Genetics of the Kiev National University. The drosophila is a widely recognized model for different biological and medical experiments in international science. Effects with deuterium depleted water regarding delay of the development of metastases are described. The radio protective effect is observed in irradiation of mice using a cobalt gun. The lifespan of mice from the experimental group was 2.5 times higher as early as 15 days before the experiments when using deuterium depleted water. (irradiation dose 850 R). In mice of the experimental group, the amount of leukocytes and erythrocytes is within normal limits. In the control group it was significantly decreased. The use of deuterium depleted water in cancer patients after radiation therapy procedures improves blood composition.
In Japan, the U.S. and other countries deuterium depleted water is used for the prophylaxis of cancer. In this cancer risk reduction, the use of deuterium depleted water is associated with the cleansing of the body from heavy isotopes and, in the first place, from deuterium.
According to Shomlai, results from clinical trials conducted from 1994 to 2001 in Hungary, show that the life expectancy of patients who use deuterium depleted water in combination with traditional methods of treatment, increases.
The study of the use of deuterium depleted water in the Russian Cancer Institute shows an effect on inhibiting the development of cancer cells. Division of cancer cells of an adenocarcinoma of the mammary gland MCF-7 was delayed for 5-10 hours. In 60% of mice with reduced immunity and placed human cancer cells from malignant tumors MDA and MCF-7, with the use of deuterium depleted water, a reduction of the cancer formation begins. In a group of mice with tumor cells from human prostate PC-3, the use of deuterium depleted water increases life expectancy by 40%. The ratio of the number of dividing cells to the perishing cancer cells in the test group is 1,5:3 and in the control group – 3,6:1. There are two indicators of particular importance – retention of metastases formation and reduction of body weight. When using deuterium depleted water, the saturation of the liver with oxygen increases by 15%. All these results show the benefit to the citizens of big cities to drink more water, mountain and defrosted.
In 1998 in Ukraine there was a study of the biological activity of deuterium depleted water on spermatozoids with different content of deuterium. The setup was VIN 7 Nadia and it was in the Medvedev Institute of Toxicology and Eco Hygiene, Ministry of Health. A significant result was obtained regarding effects on "life" activity of sex cells.
5. Water in human body carries information about longevity
Studies were performed on a 1% solution of blood serum with the method of spectral analysis of a non-equilibrium energy spectrum (NES) Antonov© (1983) and differential non-equilibrium energy spectrum (DNES), Antonov© (1993), Ignatov © (1998). Empirical blood serum samples were provided by Kalinka Naneva, Municipal Hospital, Teteven, Bulgaria. The samples were divided into 2 groups of people between 50 and 70 years of age. The first group consisted of people in excellent health. The second group consisted of people in a critical state and suffering from malignant tumors. The average energy of hydrogen bonds among water molecules in the blood serum was examined as a biophysical parameter. The result was obtained as a difference between the spectrum of 1% solution of blood serum (NES) and a control sample with deionized water (NES). This spectrum is DNES. The first group obtained the result -9.1±1,1 μeV, and the second -1.6±1,1 μeV. There is statistical difference between the two groups of results according to the t-criterion of Student at level p <0,05.
Water in the human body has a spectrum for the life like information bearer. For the control group of healthy people the value of the spectrum of the largest local maximum is at -0.1387 eV or at a wavelength of 8.95 μm.
For the group of people in a critical state and the patients with malignant tumors, the values of the spectrum of the largest local maximums shift to lower energies compared with the control group.
A study of blood serum was performed by the method of infrared spectral analysis (Krasnov, Gordetsov, 2009). The following peaks in the spectrum of absorption were received - 8.55, 8.58, 8.70, 8.77, 8.85, 9.10, 9.35 and 9.76 μm. The resulting peak at 8.95 (Ignatov, 2012) is close to the one obtained by Russian scientists at 8.85 μm. In the control group of healthy people, the function of distribution according to energy f(E) at 8.95 μm has an average value of 75.3 reciprocal eV (еV-1). In the group of people in critical condition this value is 24.1 reciprocal eV. The confidence level of the obtained results is p <0.05 by the t-criterion.
In 1992 Antonov performed experiments with the impact on tumor cells of a mouse in water. There was a decrease of the spectrum compared with the control sample of cells from a healthy mouse. Decrease was also observed in the spectrum of the blood serum of terminally ill people to that of healthy people. With the age increase of long-living blood relatives, the function of distribution according to energies at -0.1387 eV decreases. With this group a result was obtained at DNES -5.5±1,1 μeV at an age difference of 20-25 years compared with the control group.
Most of the long-living people in Bulgaria inhabit the Rhodope Mountains. One of the mountain waters, which have a spectrum similar to the spectrum of healthy people blood serum in 8.95 μm, is the water in the Rhodopes. The mountain waters from Teteven, Boyana, etc., have similar parameters.
Popp and Beloussov continued the research of Gurwitsch from 1920. The Russian scientist was studied ultraviolet radiation from the plants, which he named biophotons. The biophotons emission is coherent and the source is DNA in cell nucleus.
Nobel laureate Montagnier, Aissa, Del Giudice and co-authors researched the transfer of information from an aqueous solution of DNA molecules to water. An electromagnetic field with a frequency of 7 Hz was applied. Information about DNA is obtained in water. According to the co-authors, information about longevity can be reflected by the genome of centenarians in the water spectrum. The structure of water in the human body also affects the length of human life and is associated with it. Studies of blood serum with the DNES method show that with an analysis of the average energy, the hydrogen bonds and the function of distribution according to energies, one can analyze the vital status of man and the life expectancy associated with it. Water in the human body has spectrum carrying information about life. The influence of the deuterium atoms in water on the human body is rather on the spectrum and thence on the vital functions (Ignatov, Mosin, 2012).
The human organism spends nine months in the aquatic environment in the mother’s womb. During this stage the body contains the largest quantity of water. It is quite possible that there is a correlation to the content of deuterium, and the spectrum of blood serum in the mother’s organism (Dr. Ignatov, Dr. Mosin). Emoto has shown empirically that "positive" information structures snowflakes and the "negative" one doesn’t. Korotkov evidences that "water can store, distribute and modify the information it receives." The results of Zenin and Chaplin are also valuable.
At this stage in the development of civilization stress has an impact on life expectancy. Russian scientists Semihina and Krisheniuk have results of alterations in the water spectrum in the presence of stress (Semihina, Krisheniuk, 2005).
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