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Introduction to Oxygen as a Dietary Supplement


Time and time again the question is asked: What function does Stabilised Oxygen carry out in our body; and why are electrolytes of oxygen so effective in helping the body to rid itself of a variety of ailments or detrimental conditions? To answer these question one must first understand the importance of oxygen and its multitude of beneficial functions and effects within our bodies.




For almost 50 years, researchers and health practitioners have observed that patients using all forms of oxygen based therapies ( including oxygen supplements) have experienced improved health and well-being.

How can the most abundant element on earth provide, what many professionals have reported, such remarkable physiological benefits? To answer this question, we first have to understand just what oxygen is and how important oxygen is to a healthy body.


Oxygen is one of the five basic elements of all life ( oxygen, hydrogen, carbon, nitrogen and sulfur) and is colorless, tasteless and odorless. None of these five basic elements, or any other element for that matter, is as abundant as oxygen. In addition, only oxygen is capable of combining with almost every other element and is essential in combustion.

The earth’s crust is estimated to be 49.2% oxygen by weight; almost 20% of our atmosphere is oxygen and the rest is nitrogen; oxygen constitutes almost 85% of sea water, 47% of dry soil, 42% of all vegetation, 46% of ingenious rocks and over 65% of the human body. The two men credited with the discovery of oxygen in 1773 are the Swedish chemist Karl Wilhelm Scheele and Englishman Joseph Priestly. But it wasn’t until 1777 that the French scientist Antoine Laurent Lavosier demonstrated that oxygen was a pure substance and a component of air.


No other element is as important as atomic oxygen (with its eight electrons per atom.) Oxygen is absolutely critical to the life processes of all living creatures. Oxygen is brought to the lungs by respiration where it diffuses from the air into the blood stream through over 140 square meters of internal lung surface area called the ‘gastric mucosa’.

The average individual takes in approximately 6 litres of air per minute, (about 14 breaths per minute of about 500ml) during what is called a resting state. Under heavy exertion or stress, this rate can increase to more than 125 litres per minute.

Oxygen from the lungs is rapidly absorbed by the hemoglobin in the red blood cells. The hemoglobin becomes over 95% saturated with the available oxygen where it is then carried and eventually transferred to every one of the billions of cells in our bodies. The oxygen, once in these recipient cells is consumed, as the sugars are converted to energy and heat. The more energy or warmth our body needs, the more oxygen that is consumed. This process is called oxidation and carbohydrates ( sugars) are what are oxidised (or burned ) for the body’s fuel. Therefore the cells, to remain healthy and to perform their function of providing energy for the body, must have an adequate and continuous supply of oxygen.

Do we get enough oxygen into our blood stream? And if we don’t, what happens to our cells and vital organs when they are denied an adequate supply of oxygen? These are vital questions that scientists and researchers have debated for many years. Let’s look at some of their conclusions.


Human blood has three main components: plasma, white blood cells and red blood cells. Our blood will settle into three distinct layers if left in a test tube. The red blood cells, the most numerous in the blood stream will settle on the bottom. White blood cells, including lymphocytes, monocytes, eosinophils, basophils, neutrophils and platelets, will form a thin white line in the middle. A deep yellowish, watery plasma will float to the top. Plasma is the actual ‘river’ in which all the working constituents of our blood are carried in our remarkable circulatory system. Among the many constituents in this river is dissolved oxygen - up to 5% can be dissolved in this fluid. Unlike fish that can exist on this dissolved oxygen in the plasma stream, the human body requires more oxygen than the plasma can provide. Hence, the great importance of the red blood cells which can carry tremendous amounts of oxygen to the tissues in our body. But these red blood cells get their oxygen from the plasma.

The body, in its own remarkable way, does not allow all of the red blood cells’ oxygen to be consumed as it travels through our bodies. Under normal conditions, 70% to 75% of the oxygen that started the journey in the red cells completes the return trip to the lungs. Thus, from 25% to 35% of the oxygen is consumed by normal cellular metabolism. If, however the body undergoes exertion, stress, or any other prolonged physical activity, this "reserve" can drop to 20% to 25%. Thus, if you can raise the amount of oxygen dissolved in the plasma, you will increase the amount of oxygen that gets to the cells and that can become a part of the oxygen ‘reserve’. The red blood cells, as carriers, gather oxygen from the plasma and transport this oxygen to the capillaries where it is released again into the plasma for the cells to use for metabolism.




An amazing statement was included in the research by Dr. Arthur C. Guyton, M.D. in his medical text The Textbook of Medical Physiology.

He wrote: ‘ all chronic pain, suffering and diseases are caused from a lack of oxygen at the cell level’ In his research, Dr. Guyton discovered that in order for our cells to get their oxygen from the blood stream, the cells must be in what he described as a ‘ dry state’. In this condition there will be no excess fluid around the cells. There is only enough fluid to fill the crevices around the cells. Dr. Guyton believed, as well as most of the medical profession, that as long as the fluid around the cells was at the proper water level, contained the right mineral balance, and was free of toxic wastes, the cells would continue to live, function and grow in a healthy manner.

Dr. Guytons research revealed that blood proteins in our blood stream, (which is 91% water) make sure that the water is kept in our blood stream so that no excess fluids seep around the cellular walls. If our blood proteins escape out of our blood stream and find their way into spaces between the cells, then our lymphatic system must immediately, remove these proteins from these spaces. The protein’s present in this altered condition will pull both sodium and water out of the blood stream. This reverse transfer causes a water and sodium potassium imbalance, alters the cells ‘dry state’, inflames the cells and reduces the cells ability to produce energy. When this situation occurs, the presence of excess water between the cells pulls oxygen as well from the blood stream. This reduces the amount of oxygen that can get to the cells through the blood stream.

A prolonged blood protein imbalance will cause pain, sickness, disease and, if serious enough, could produce immediate death in just a few hours. Blood proteins are not the same as the proteins we eat. We eat proteins to obtain the amino acids from them. From these amino acids, the body manufactures its own proteins, especially those for the blood stream (albumins, globulins and fibrinogens.)  Until Dr. Guytons discoveries, it was believed that our blood proteins were simply too large to escape through the blood capillary membranes into the cellular spaces. Dr. Guyton proved that this assumption was untrue. He wrote: ‘The importance of this function of the lymphatics cannot be stressed too strongly, for there is no other route besides the lymphatics through which excess proteins can return to the circulatory system.’ Fluids in the lymphatic system move up the legs into the large thoracic duct in the chest where the fluids eventually empty into the sub-clavian vain at the base of the neck. At this point the fluids return to the blood stream with the " captured" blood proteins to rebalance the system. Dr. Guyton showed that the lymphatic vessels have one-way check valves in them. These valves keep the fluids in the system flowing in only one direction.

Approximately three litres of blood pulses through the capillaries every minute of every day we are alive. During those same sixty seconds, the heart will beat eighty times and diffuse (pump) water through the tiny capillary pores to supply cells with minerals, nutrients and oxygen.


Dr. Otto Warburg has done considerable research on why healthy cells need oxygen to create the "energy" for the life process. In fact, he received two Nobel Peace Prizes for Medicine based on his research findings on the importance of oxygen to cellular life.

Healthy cells in the body break down the carbohydrates we eat into simple glucose sugars. The glucose is then stored in the cells. The cells, when they need energy to perform their functions, (reproduction, heat etc.) take the stored glucose and in a chemical reaction with oxygen, create ATP (Adenison Tri-Phosphate) which becomes, as described by Dr. Warburg, " the pure energy of the cell." If there is a lack of oxygen at the cellular level, no life process can take place and the cell dies. But Dr. Warburg also discovered that a poor supply of oxygen is also detrimental to the cell. When cells lack the right amount of oxygen, the glucose in these cells begins to ferment and a chain reaction starts taking place. Instead of living off the ATP, the cells begins to live off the fermentation of the stored glucose.


Dr, Stephen Levine, a well respected molecular biologist and geneticist and Dr. M. Kidd completed research that confirmed that :..oxygen is the source of life to all cells.. The constant abuse we subject our bodies because of our eating and drinking habits, as well as a lack of exercise, robs precious oxygen from our bodies. This situation is further complicated by pollutants and toxic preservatives in our water, food and the air we breathe.

Dr. Kidd wrote: "Oxygen plays a pivotal role in the proper functioning of the immune system." especially as it relates to the system’s resistance to disease, bacteria, and viruses. Dr. Levine added: We can look at oxygen deficiency as the single great cause of all diseases. It is believed, and supported by a great deal of research, that a shortage of oxygen in the blood could very well be the starting point for the breakdown of the immune system.

According to Dr. Levine, "Oxygen nutrition" optimises the concentration of oxygen in relation to a natural food diet. In other words, the amount of oxygen in relation to food density is the key for excellent cell metabolism. Dr. Levine went further to show that complex carbohydrates are oxygen rich foods. The complex carbohydrates include vegetables, whole grains, seeds and nuts. (fruits are too high in simple sugars to be classified as complex carbohydrates.)

Dr. Warburg’s research adds further emphasis to these findings. He stated that sub-optimal oxygenation of tissues and cells seen in cellular hypoxia is not only the underlying cause of diseases, like cancer, but also results in a predisposition towards degenerative diseases. The lack of oxygen is the outstanding factor in immuno depressive illnesses. Thus, all three researchers conclude, an increased oxygenation of the bloodstream and cells will enhance and may restore overall health.



Oxygen is used by the cells in many processes that break down excesses of toxic substances in the body. This process of combining a substance with oxygen at the cellular level is called "oxidation". Dr. Levine describes oxidation this way: Oxygen provides the spark of life. Nutrients provide the fuel for burning. The correct fuel/oxygen mixture is required for the best of health.

A lack of oxygen in proper amounts prevents oxidation and oxygenation, two processes that energise the cells to biological regeneration. These processes are the very foundation of life and death. If the normal environment of the cells is maintained, it will not lose its growth and reproduction potential. Poor oxygen supplies will result in poor oxidation. Poor oxidation results in increased cell contamination. Oxygen is a vital cell detoxifier. When body oxygen levels are deficient, toxins build and may eventually devastate the body functions and deplete the body of life giving energy. Without oxygen, there can be no nourishment. Without nourishment, there can be no heat or energy and the body cannot purify itself. A body with an excellent oxygen supply, and an unhindered development of the oxidating and oxygenation metabolic processes, will be considered healthy and sound. ( sound health)


Dr. C. Samuel West, a specialist in the science of lymphology and a distinguished member of the International Society of Lymphology, has proven that food present in cells without enough oxygen will turn into toxic waste and fat. The less oxygen present in the cells, the more pain we experience.

Dr. West is a strong advocate of exercise since a lack of exercise reduces circulation and thus the transfer of oxygen to the cells. This leads to high blood pressure and fluid retention. As mentioned previously, it is the lack of A.T.P. (Addenison Tri-Phosphate) that causes the glucose in the cells to ferment, creating an anaerobic (without oxygen) condition. This upsets the metabolic process of the cell. These cells, lacking sufficient oxygen, start manufacturing improper chemicals and soon these cells and their surrounding cells become weak and unhealthy. If prolonged, the entire immune system may start breaking down.

A lack of cellular ATP drastically alters the body’s sodium - potassium balance in the individual cells, in the bloodstream, and in the fluid that surrounds the cells. This chemical change also alters and reduces the " electrical fields" in the cells and the blood stream. Once this electrical change occurs, minerals begin to "fall out" of the fluids surrounding the cells and the bloodstream and start sticking together in what is called mineral deposits. If these minerals settle in the joints, arthritis occurs, in the eyes cataracts occur. When they settle in the arteries, we describe the process hardening of the arteries. Our muscles also respond to electrical charges sent by the brain. These messages tell the muscles to contract or release. Anything that upsets this delicate and intricate electrical transfer of energy, as does a lack of adequate ATP which in turn is caused by a lack of oxygen in the cells , will cause the muscles to spasm and work or respond poorly.


We live in a world of fast foods and instant gratification. In addition, Australians consume a large amount of red meats and dairy products and research have shown that a considerable amount of our average diet contains a large amount of fat.. Unfortunately, animal and dairy products contain high concentrates of cholesterol. While the body needs some "good" cholesterol to run efficiently, the cholesterol from meats and dairy products passes directly into the bloodstream and begin to trap blood proteins which are so important for stabilising and regulating the flow of oxygen to the cells. Excessive consumption of cholesterol/fat-ridden foods robs oxygen from the bloodstream. Fats easily combine with oxygen and form free radicals. These free radicals use more oxygen to form peroxides that damage and destroy cells. As far back as 1977, it was reported in the Scientific American (February issue) that cholesterol epoxide (peroxide) and other substances formed from cholesterol will cause cells to mutate and which will cause cancer. This is how fatty foods, which are consumed by many cause an oxygen deficiency that helps promote cancer.

Thus cells that lose their ability to utilise oxygen can and do become cancerous. These cells have been oxygen starved so long that they have undergone a metabolic shift and revert to a metabolism without oxygen, called anaerobic metabolism. This is, of course the ultimate and last stage of degeneration caused by a low oxygen lifestyle. It is also interesting that research shows that people who consume very large quantities of fat have a far greater incidence of cancer as well as other degenerative diseases.

Thus cholesterol rich foods, are converted into toxic waste and fat in the cells. This toxic waste and fat in the cells impede the nutrient supply to the cells from the bloodstream. In addition, all the current nutritional research clearly indicates that foods high in sugars, salts, fats and cholesterol are directly responsible for high blood pressure, hardening of the arteries, obesity and strokes.

Dr. Levine has described the consequences of cellular oxygen deficiency this way: it is an acidic condition, caused by the accumulation of acidic by-products, it occurs in poorly oxygenated cells. Soft drinks, caffeine, alcohol, and red meats are among the substances that cause systemic (whole body) acidicy where there is an excess of positively charged hydrogen ions (H+). When excessive numbers of hydrogen ions are in the tissue environment they will combine with ,and thus utilise, oxygen resulting in an oxygen deficiency state. ô When cells are deprived of oxygen, lactic acid accumulates and the cellular environment becomes acidic. This reduces available oxygen for the primary function of metabolism because more oxygen is needed to neutralise the acid.


As meat and dairy foods, which are high in cholesterol, break down (dissolve) in our stomach and intestine, poisonous by-products are manufactured. These by-products dilate (widen or expand) the capillaries making the distance that the water has to travel to and from the cells much greater. The greater the distance that the fluids must travel, in the same amount of time, the less toxins, waste products poisons etc. are transferred back out of the cells and into the blood stream. The waste products, toxins, etc. start to accumulate in the cells. The stretched capillary walls allow the blood proteins to escape and lodge themselves between the cells. The trapped proteins permit the accumulation of excess fluids around the cells. This prevents the cells from getting the oxygen they need and so the glucose begins to ferment resulting in electrical changes as the mineral and salt balances change.

The oxygen rich red blood cells carry a negative electrical charge. They travel through the capillaries single file. As the capillaries dilate and the electrical balance of our body changes because of a lack of oxygen, these red blood cells are now dispersed over a greater volume in the capillaries, and are unable to travel the now greater distances to the cells. To further complicate matters, the red blood cells, because of the electrical change, begin to clump together to cause a microscopic traffic jam in the capillaries, which in turn further dilates the capillary pores and allows more blood proteins to escape and lodge in the spaces around the cells. This produces more fluid around the cells and the process repeats itself until the cells begin to die because of a lack of Oxygen.


Most individuals when they are sick turn to conventional medicines to correct the problem. Researchers have learned however, that many effective cures for illnesses have side effects. Antibiotics, for example, are effective for removing pathogenic bacteria from the body. Many thousands of lives have been saved from bacterial infections by using penicillin as well as other antibiotics. Yet, many studies indicate the possibility that recent drastic increase of Candida albicans yeast infections is primarily due to wide spread use of antibiotics as prescriptions for humans.

Statistics further indicate that the majority of antibiotics produced and used today are also purchased by the poultry, dairy and beef industry to prevent animal diseases. These antibiotics are eventually stored in the tissues of these "food" animals. When they are slaughtered and prepared for markets, these stored antibiotics are eventually consumed by each of us and added to those that are already in our bodies.

The problem is that antibiotics may remove beneficial as well as pathogenic bacteria. This situation could create an imbalance which could lead to an over-growth of candida as well as many other problems. Therefore, when we use antibiotics, we make a trade-off. We often sacrifice our beneficial bacteria to rid ourselves of the pathogenic bacteria. While antibiotics have importance in life threatening situations, to use them routinely for every illness is considered by many practitioners to be inappropriate and could even be dangerous to our health.

When the body encounters pathogens, (like viruses, fungi and bacteria,) in the bloodstream or in tissues, the immune system cells will surround or engulf these invaders. They then bombard these pathogens with self-generated free radicals called superoxides which scientists call O2 . These superoxides are manufactured in the cells during normal cell metabolism using the oxygen they get from the red blood cells in the capillaries.

If the immune system is working properly, as described earlier, it will generate more anti-oxidant enzymes to remove the free radicals to protect the surrounding tissues. The importance of this anti-oxidant defense system cannot be overstated. Without it, the immune system actually works against the body by generating too many free radicals which will go about doing damage to the surrounding tissue and our bodies. Although there are other factors, this breakdown in the immune system in many people has helped to create an epidemic of auto-immune diseases like lupus and rheumatoid arthritis.


Oxygen is both a life giver as it also is a "killer". It is one of the body’s primary guardians and protectors against unfriendly bacteria and other disease organisms. In fact, one of oxygen’s major functions is disintegration. Brian Goulet, a Certified Herbologist and a Nutritional Consultant wrote in his article : The Magic of Aerobic Oxygen, ..Rubble, garbage, toxins, refuse, debris, and anything useless are destroyed by oxygen and carried out of the system. Just as a clean house holds little interest to passing flies, likewise an oxygen rich body is a difficult fortress to assail.

Harmful anaerobic bacteria and viruses cannot survive in the presence of oxygen. But oxygen is also naturally selective in what it kills. Unlike drugs and antibiotics which may and usually kill all bacteria in the body, oxygen kills only harmful bacteria while allowing beneficial bacteria to thrive, thus ensuring good health. Oxygen molecules, like those found in stabilised oxygen supplements, such as Di-Atomic O2xygen, are missing electrons in each of the molecules æ outer shells. Because of this, the oxygen molecules will pull electrons from anything that will give them up. Anaerobic bacteria and anaerobic viruses, (as do all living things) possess an electrical charge. These anaerobic organisms cannot prevent the oxygen molecule from stealing electrons from them. As soon as this process occurs, the organisms die.

Aerobic beneficial bacteria will not give up their electrons to the oxygen molecule. Neither will beneficial bacteria which live under both anaerobic and aerobic conditions, like in the intestines, be adversely affected by oxygen. In fact, these organisms are actually stimulated in the presence of oxygen.


In view of all the scientific evidence available today, an excellent oxygen ratio in the bloodstream is a prime requirement for good health. Stabilised oxygen supplements are packed with nutrient oxygen- Vitamin O - as Dr. Levine calls it. This oxygen certainly fits the definition of a vitamin which is a substance found in foods, (or the environment) and is necessary for life, but not necessarily manufactured by the body. Vitamin O, the oxygen nutrient, Dr. Levine calls à the very spark of life!


The current literature explains that nutritional oxygen can be either dissolved molecules of oxygen, (in various molecular configurations including O1, O2, O3, O4 etc.) or bio-available oxygen molecules electrically bound to numerous salts. These oxygen salts include magnesium, potassium and sodium provided their molecular bonds are easily weakened so that the oxygen molecules may be absorbed by the body into the bloodstream. The literature further explains that stabilised oxygen may be either in liquid or dry forms provided that in the dry form the oxygen molecules may be easily and readily made available to the body.

Many oxygen supplements use oxychlorine or hypo-chloride compounds to stabilise the oxygen molecules. These compounds include chlorite (ClO2 ) and chlorate (ClO3). There is evidence to indicate that chlorite and chlorate may indeed release its oxygen in its nascent form as O2 into the body as these ions are broken down during the digestive process by hydrochloric acid (HCl) in the stomach.



Dr. James Berg, states that stabilised oxygen may be found either in its molecular form, primarily O2 , and or in an oxygen compound primarily chlorine dioxide or chlorite (ClO2)

Rodrigo Rodriguez, M. D. (Medical Director of American Biologics Hospitals), in a report for the prestigious Robert W. Bradford Research Institute stated: Many substances are capable of releasing nascent oxygen such as chloride oxides, ozone, hydrogen peroxide and iodine compounds.. A comparison may be made of these substances on the basis of their stability and toxicity as well as pharmaconetic properties (how it reacts with the body).

Using the above examples, ozone releases its oxygen very rapidly (short half life) while chlorine oxides remain effective over a much longer period of time. Hydrogen peroxide has a relatively short half life as it stimulates free radical activity. Sodium periodate is a rich source of oxygen however, the by-product is iodine which is highly toxic to the cells.

Commonly used oxidants as described by Brian Goulet, Certified Herbologist in the newsletter (Alive: Focus on Nutrition which was published by the Canadian Journal of Health and Nutrition) includes oxides of oxygen (ClO2 , ClO, ClO3 , ClO4 etc.) ozone (O3) and Hydrogen Peroxide ( H2O2).

James Lembreck, D. C. H., C.M.P. wrote in Natural Physique: Stabilised oxygen is often confused with hydrogen peroxide, but has a very different action and is very safe to use. The product was originally developed by Dr. William F. Koch, M.D. and Ph.D., and was later used by the NASA for the space research program. It was originally designed to destroy any known bacteria or virus and not harm the host when taken internally or used externally.


Di-Atomic O2xygen« is based on the dissolved molecular oxygen (O2) formulation instead of the salts of oxygen formulations. It is very well established that in normal standing or free flowing water, oxygen molecules (O2) may also be dissolved. While the concentration of O2 in these instances is small, (normally from 7-20 parts per million /ppm) nevertheless, water is capable of holding these molecules in their bio-available state.

During its proprietary manufacturing process, Di-Atomic O2xygen« actually creates stabilised oxygen molecules rather than bonding oxygen molecules to various salts.This process is a completely unique and totally different approach to creating a stabilised oxygen supplement than all other previous oxygen supplements on the market today. Di-Atomic O2xygen« is packed with dissolved oxygen in both its diatomic form (O2) and as ozone (O3). This separates Di-Atomic O2xygen« as a solution from traditional oxygen supplementation applications.

Di-Atomic O2xygen« supplies the bloodstream and the cells with additional oxygen. We have already shown that without a dependable supply of oxygen, the cells in our bodies cannot function properly. Nutrients, occurring in our diets as proteins, carbohydrates, and fats, must have oxygen present to convert their potential energy into usable energy. In order for new cells to be formed, hundreds of amino acids must link together using oxygen as the source of their building energy.


Our bodies are now experiencing oxygen starvation on a daily basis. The following factors rob oxygen from our bodies:

Toxic Stress Whether derived from the water we drink, the air we breath or the food we eat, we are now subject to over 70,000 different toxic contaminates, many that did not exist a decade ago. Oxygen is required for the body to even attempt to metabolise and eliminate these lethal chemicals from the body.

Emotional Stress Adrenaline and adrenaline related hormones are created by the body during emotionally stressful times (like every day, for many of us). The body must use its available oxygen to metabolise those chemicals back out of the body to re-establish metabolic balance.

Physical Trauma & Infections Bacteria and viruses can put tremendous stress on the body’s immune system. When this occurs, the immune system is robbed of the oxygen that is necessary for the body’s normal metabolic function.

Reduction in available atmospheric oxygen. Studies reveal that increased environmental pollution and green plant destruction has reduced the amount of oxygen (by as much as 50%!) in our atmosphere over the last 200 years.

Improper Diets, Saturated fats can reduce oxygen in the blood stream. Foods with high fat contents and low nutritional values, (i.e. junk and highly processed foods) have less than half of the oxygen content than do foods containing complex carbohydrates.

Lack of Exerciseà Exercising increases the body’s metabolic rate as well as the intake of oxygen to help cleanse the body of built up toxins. A sedentary lifestyle reduces the body’s ability to process out toxic contaminates and to perform

normal metabolic functions.

Quoted material:

1 Guyton, Arthur C. Text Book of Medical Physiology 5Th Edition Pennsylvania W.B. Saunters Co. 1976

2 West, Samuel C. The Golden Seven Plus One 7th printing. Utah, Samuel Publishing April 1988

3 Levine, Dr. Stephen & Kidd, Dr. Ferris M. co-authors Antioxidants Adaptation and Immunity Cancer Oxygen & Candida Albicans, Lets Live Aug. 1986

Donsbach, Kurt Oxygen, Oxygen, Oxygen Rockland Corporation 1993/13

Rothshild, Peter R. and Fahey, William Free Radicals Stress and Antioxidant Enzymes University Lab Press Honolulu H 1991 +

6 Ayur’Ved Maharishi Freedom from Disease, How to control Free Radicals

by VEDA Publishing Toronto Canada 1993

7 Goulet, Brian Confessions of a Herbalist, The Magic of Anaerobic Oxygen, Focus on Nutrition (issue21)

Burmay B.C.. 1989 ADEMIC Press New York 1977



Di-Atomic O2xygen

For years alternative health care professionals have developed and provided natural therapies for healing and well being. Oxygen alternative approaches to health have been used effectively by these professionals, as reported in over 5,000 published articles, for over 100 years.

Di-Atomic O2xygen offers a nutritional alternative approach to better health in the form of a remarkable stabilised oxygen supplement. Di-Atomic O2xygen« is balanced to the near pH of the blood stream, which is approx. 7.2. (this is definitely a first for stabilised oxygen products)

Di-Atomic O2xygen has one of the highest concentrations of bio available stabilised oxygen available today. It is non chemically formulated ( no mixing of potentially toxic chemical), colorless, non-toxic, hypo allergenic, and completely safe to use as directed. The normal dose is 15 drops of Di-Atomic O2xygen« in 250ml of water. Di-Atomic O2xygen« is primarily absorbed into the blood stream through the stomach and the intestinal lining. Once in the blood stream, the oxygen will make its normal journey to the cells in the body. Each 50ml bottle is a 30 day supply of activated stabilised oxygen.

WHO SHOULD USE Di-Atomic O2xygen ?

The answer is quite simple.

Any individual who is interested in a holistic approach to health and well-being, (that is, preventing health problems instead of curing them once they occur,) will benefit from using Di-Atomic O2xygen

Di-Atomic O2xygen as a supplement is every bit as important as Vitamin A,E,C, etc. Our bodies require a constant supply of oxygen to function properly.

The oxygen in Di-Atomic O2xygen works hand in hand with vitamins, minerals and amino acids to help obtain a higher level of health.

The oxygen in Di-Atomic O2xygen is a powerful topical and internal bactericide, fungicide and viricide. Tests show that the powerful oxygen present in Di-Atomic O2xygen renders most pathogenic anaerobic organisms harmless after direct application.


Di-Atomic O2xygen is also a remarkable blend of essential and trace minerals in combination with its bio-available, stabilised dissolved oxygen.

Di-Atomic O2xygen includes trace amounts of:

Calcium : Calcium is essential for developing and maintaining healthy bones and teeth. It also assists in blood clotting, muscle contraction, nerve transmission, oxygen transport, cellular secretion of fluids as well as enzyme activity.

Chromium: Chromium aids in glucose metabolism, which also requires oxygen, and helps regulate blood sugar by potentiating insulin and serving as a component of the glucose tolerance factor.

Cobalt: Cobalt promotes the formation of red blood cells which carry oxygen to the cells and tissues.

Copper: Copper is essential to normal red blood cells and connective tissue formation. It acts as a catalyst to store and release iron to help form hemoglobin which is the key oxygen carrier system for the body. Copper also contributes to the central nervous system functions.

Iodine: Iodine is required as an essential part of the thyroid hormone to support normal metabolic functions which require large amounts of oxygen in the body.

Iron: Iron is necessary for red blood cell formation and function. It is essential for the transportation of oxygen throughout the body and for normal brain functions.

Magnesium: Magnesium activates over 100 enzymes and assists in the functioning of nerves and muscles. It also helps maintain the integrity of cell membranes and stabilises the electro-chemical balances of the cells which require energy based on the "burning" of oxygen and glucose. It is a critical mineral for proper heart functions.

Manganese: Manganese is a key component of enzyme systems, especially the oxygen handling enzymes. It supports brain functions and is required for blood sugar regulation. Manganese is essential in the formation and health of bone structure.

Molybdenum: Molybdenum contributes to the normal growth and development of the body and organs. It is a key component in many enzyme systems including those involved in body detoxification which require large amounts of oxygen.

Phosphorous: Phosphorus works directly with calcium to develop strong bones and teeth. It also enhances the uses of other key minerals and nutrients. Phosphorous is a key mineral in cell membrane integrity and intercellular communication with oxygen, for proper energy production and the functioning of the metabolic processes in the body.

Selenium: Selenium is the key component of one of the main antioxidant enzymes and is necessary for normal growth and physiological development. It plays an important role in body detoxification of heavy metals such as mercury, in combination with oxygen. Selenium also plays an important role in the production of antibodies by the immune system.

Sulfur: Sulfur is required for structuring body proteins, including muscles and hair. It plays a critical liver detoxification role as well as playing a key role in many antioxidant nutrients and oxygen handling.

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