Functional waters – the Kaqun water
Nowadays we hear with increasing frequency about therapeutic products, or agents claimed to be special, „miraculous”. These wonderworking agents often fail in scientific verification tests, however the explanation of their effect can often be found in areas with which we doctors are less familiar. For a long time this was the case with oxygen water. One of the reasons for the lack of explanation was the mechanism of producing oxygen water, as it is possible to find water, which was simply charged with oxygen – with a technology similar to soda water, where CO2 gas is absorbed by the water. There is also the water treated with ozone; but characteristically, in this case when the pressure decreases oxygen will soon be discharged from the water therefore it is impossible to detect its effect.
However, methods have been developed recently which change the structure of the water and thus it became possible to increase the oxygen content of the water for long periods.
But what really is water? We know it, we drink it, and it flows from the tap and is slowly becoming one of the most valuable assets. We are used to water being here for us; there is no life without it, and it is a significant component of the biologic structures. We know that its structure is H2O. We know that it freezes at 0 degrees and boils at 100 degrees, and one of its specificities is that it is denser in 4 degrees than at 0 degrees, (did we ever wonder why?).
However, comparing it with other, similar molecules containing 2 H atoms (H2S, H2Se, H2Te), we find that based on its molecular weight it should boil at -100 degrees. The structure of the water, which is called cluster, is responsible for this phenomenon. The formula of the water is not H2O, but H2nOn. Its basic structure is tetrahedron (4-water molecules form the structure H8O4). These tetrahedrons make up the clusters consisting of several hundred molecules. Liquid water contains individual molecules as well as small and large clusters. These formations can store other molecules inside their inner space and then slowly release them. Compared to the biochemical processes these clusters remain stable for long (msec) periods. Depending on how the dipole structured water molecules are aligned on the external shell of the cluster, they can have + or – charge, that is they are either acid or alkali. Whether the cluster can penetrate the cell membrane or it remains in the intercellular space depends on its size. Small clusters can penetrate the cell wall. The water without clusters is considered „dead” water. The speciality of kaqun water is that in the course of the structural change oxygen atoms are freed from their bonds and are stored inside the small clusters, and the large clusters break down to sizes still able to retain the oxygen within them but are also able to penetrate the cell membrane.
The other form of the water is not the spherical cluster but the strand shaped polymer structure. This structure is able to string up the ring shaped molecules enabling chemical reaction, „exchange of information” to take place between them. The exchange of information between cells has been discovered as the result of research carried out in the last decades and can be connected to the biophotons. These photons are released in the course of chemical reactions and affect the way the cells function.
Water polymers have a special characteristic, the modification velocity of the polymers changes when irradiated with external frequency (sound, light). The evaluation of this phenomenon goes a long way and is present in the explanation of the effect of other therapies too.
Oxygen. Oxygen is the other corner stone of life, besides water. There is no life without oxygen, but oxygen is also a very strong poison, and the body is only able to balance the effect of oxygen through a very complex regulating (redox) system. Should the balance of the pro-oxidant and anti-oxidant system be upset degenerative diseases begin; this is called oxidative stress. In an environment where there is a shortage or an excess of oxygen there is a change in the functioning of many cells. The growth of tumour cells accelerates at a partial oxygen pressure of 7 Hgmm. When the level of oxygen falls below 2.5 Hgmm, the tumour cells loose their sensitivity to radiation, cytostaticum, and photodynamic treatment.
Kaqun water contains 18-20 mg oxygen per litre, which is 6-8 times more then the average oxygen content. The oxygen retention capacity of the water is such that the oxygen content of kaqun water left in the open for 5 days decreases by 6.5% only-
Within experimental conditions, in the course of in vitro tests maximum reactive oxygen radical concentration in oxygenated kaqun water can be achieved in 10 seconds. This reaction occurs in the same way in the cell system too, as both the generation of peroxidase from molecular oxygen and the oxidation of the substrate take place in the cell wall while reactive oxygen is produced. NADH also participates in the reaction. When the system is sound, the processes are in equilibrium. It is known that the absence of reactive oxygen radicals is just as problematic as their overproduction, which causes oxidative stress. The very fast increase of reactive oxygen measured in the in-vitro system supports the assumption that the feeding of oxygenated water in the required quantities will lead to the fast production of larger quantities of OH radicals in the Fenton (Haber-Weiss) reaction also within in-vitro circumstances. It is a known fact that the intracellular state, the reactive oxygen radicals (ROS) play an important role in apoptosis. Reactive oxygen species (ROS) and reactive nitrogen species (RNS) are important signal systems in the intra and intercellular communication and in the conservation of the redox-homeostasis. This ROS/RNS induced and regulated response is able to influence gene expression, apoptosis, cell growth, cell adhesion, chemotaxis, protein–protein interactions and the enzymatic functions, angiogenesis, immune processes, inflammation processes, Ca2+ homeostasis, ion channels and many other processes.
The intake of kaqun water creates a reactive radical peak (–√OH, O2− and H2O2) at the moment of consumption which with the above mechanism enhances the effect of free radicals and apoptosis, as well as the stimulation of the immune system on the one hand, and also provokes the body’s own anti-oxidant system. This wave of reactive radical production represents a strong apoptotic stimulus.
This is one of many and repeated proofs that there is a dynamic equilibrium in the body, and with our therapy, we must achieve the conservation of this equilibrium, therefore the one-sided blocking treatment may not be expedient.
The treatment with oxygen dissolved in water was developed by a German professor, Otto Wartburg for the supplementary treatment of patients suffering from silicosis. By now it is well known that oxygen dissolved in water in suitable form improves the oxygen supply of the tissues, first of all naturally around the entry-absorption site (skin, alimentary tract, liver), but due to the stability of the clusters it reaches further through the blood. Tests carried out in different tumour cellines showed a 50-100% decrease in the number of tumour cells. The effect is not linear with the concentration of oxygen, and is only present in kaqun water, and not in boiled water (boiling breaks down the cluster structure).
Results of other measurements with kaqun water:
1. Muscular power increased after drinking water. Reaction time decreases by several msecs. This measurement showed the increase in the performance of the muscular system due to the consumption of kaqun water.
2. The oxygen saturation of the blood increased by 1.2%-al after drinking water. The average cardiac stress measured with the Vocardio device decreased from 22 to 16 (improved), the pulse rate decreased. This measurement shows the reaction capacity of the cardiac muscles to load. Blood pressure decreased by 2%, the result of the Rosenberg test improved. (Semmelweis University, Faculty of Physical Education and Sports Sciences)
3. Cardio-vascular diseases (tests of Dr. György Zeltner):
a. In the case of patients suffering from angina the need of taking nitrates decreased in 75% of the cases, while 41% stopped taking nitrates altogether.
b. In the case of atrial fibrillation, the rhythm became normal.
c. TIA, VBI improved by 80% after drinking water
d. In the case of peripheral obliterative vascular disease walking distance increased by 85% and for 25% of leg ulcers were also cured.
e. 60% of varicose leg ulcers were cured during kaqun bath.
4. Kaqun water bath has the effect of improving skin diseases (virus, bacteria, fungus), and ulcers (varicose, angiostenotic, diabetic) improve or disappear completely.
5. In the case of traumatic injuries epithelisation accelerates, burnt skin (radiation, thermal burns) heals without or with minimal scarring.
6. In the case of sever physical load kaqun water decreases tiredness (long distance driving)
Use/application:
Kaqun water is used/applied in three forms.
1. Consumption of kaqun water; in the case of preventive and conservation treatment the dose should be ½ l per day, in the case of therapy 1.5 l per day distributed throughout the day. In this case, the effect will become apparent after absorption in the alimentary tract, and the treatment is used in the case of diseases of internal organs, organs further from the skin and diseases of the alimentary tract.
2. Bathing in kaqun water. The duration of the bath should be 50 minutes, 1-3 baths can be taken per day depending on the seriousness of the disease. It is recommended principally for diseases connoted with the skin or close to it but it is useful in other cases too. The duration of the bath cure should be two weeks, which can be continued after a pause. This should be determined according to the condition of the patient and the speed of healing
3. The use of oxy gel, which ensures long-term oxygen effect in the case of ulcers.
Availability of the treatment:
The Kaqun treatment site operates at the basement of the Semmelweis Hospital surgery. Appointment: 06-20-2056789. Professional questions: Dr. Zoltán Hegedűs
Literature:
1. G. N. I. Clark, C. D. Cappa, J. D. Smith, R. J. Saykally, T. Head-Gordon The Structure of Ambient Water, J. Mol. Phys 108, 1415-1433 (2010)
2. Dr. Tóth József „Az oxigenizáció hatása a daganatok biológiai viselkedésére”. Orvosi Hetilap 2007 július 1415-1420.
3. Dröge W. Free Radicals in the Physiological Control of Cell Function. Physiol Rev 2002 82: 47-95
4. Vallance P, Leiper J. Blocking NO synthesis: how, where and why? Nat Rev Drug Discov 2002 1: 939-950.
5. José M. Matés, Francisca M. Sánchez-Jiménez; Role of reactive oxygen species in apoptosis: implications for cancer therapy. The International Journal of Biochemistry & Cell BiologyVolume 32, Issue 2, February 2000, Pages 157-170
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