The generation and maintenance of all our life processes are supported by four basic components: carbohydrates, water, proteins and energy. Most scientists agree that oxygen is actually the over-riding key ingredient in all four of these life components. 80% of all our metabolic energy production is created by oxygen! The human body is largely composed of oxygen, so it is no wonder that scientists are now discovering how low levels of oxygen can disrupt the body’s ability to function correctly. The oxygen concentration in a healthy human body is approximately three times that of air. Fortunately, oxygen is the most abundant element on earth comprising nearly 50% of the earth’s crust and averaging about 20% of dry air in a non-polluted environment. Scientists now also agree that oxygen plays a powerful and primary role in our overall health and well-being. A growing number of researchers agree that the best way to improve health may be related to the optimum oxygenation of every cell.

All metabolic processes in the body are regulated by oxygen. Our brains process billions of bits of information each second. Our metabolic processes work to rid our bodies of waste and toxins. Even our abilities to think, feel and act require oxygen-related energy production. Oxygen also plays a vital role in proper metabolic functions, blood circulation, the assimilation of nutrients, digestion and the elimination of cellular and metabolic wastes.  Sufficient oxygen helps the body in its ability to rebuild itself and maintain a strong and healthy immune system. You know how important water, vitamins, minerals and enzymes are to your health and vitality. Although you can actually exist without food for about 40 days, and water for about seven days, without oxygen, life ceases to exist in only minutes.

Factors that may affect our body’s precious oxygen supply:

1. Diminishing amounts of atmospheric oxygen.  Today, cutting edge researchers believe that even relatively healthy people may have trouble extracting all of the oxygen that they need from the air. In fact, the air itself is becoming more and more polluted, making oxygen extraction more difficult. Physiologists understand that breathing polluted air, or breathing air that contains less oxygen, puts tremendous stress on the human body. Surprisingly, paleontologists have analyzed the oxygen in air bubbles trapped in fossilized amber from the Jurassic Era. Their research revealed that the oxygen levels were significantly higher then than they are today. In fact, many scientists now believe that the dinosaurs became extinct because of a rapid drop in oxygen and the inability of their respiratory systems to adapt to this oxygen reduction. If the dinosaurs became extinct because they could not obtain enough oxygen, is it any wonder that our bodies can suffer as well as our oxygen supplies become more polluted?

2. The diet’s role in oxygen shortages. Eating junk food on a regular basis forces the body to use up more of its oxygen reserves than usual in order to metabolize the preservatives and what few nutrients may actually be in the “food”. Complex carbohydrates and raw fruits and vegetables are high in oxygen with as much as 50% of the weight of these foods made up of oxygen. The percentage of oxygen in fats is less than 15% while the percentage of oxygen in protein is between 20% and 40%, depending on the protein’s amino acid profile. Dense food compounds, such as fats and proteins, are not only low in oxygen content, but also require extra oxygen from the body to convert them into energy which further depletes the body's oxygen reserves. Other oxygen-robbing foods include processed sugar, white flour, alcohol and caffeinated drinks. The body has to divert needed oxygen from primary metabolic functions, such as heartbeat, blood flow, brain function and immune response, just to oxidize and metabolize these foods.

3. Stress and oxygen. Any excessive stress, including a heavy workload, traumatic or intense events in your life, prolonged depression and anxiety, can rob the body of huge amounts of its much-needed oxygen. Emotional stress produces adrenaline and adrenaline-related hormones, requiring the body to draw on its oxygen reserves for their production and eventual oxidation. Infection also depletes the body's oxygen, which is used to combat bacteria.

4. Acidity and oxygen reserves. Individuals with chronically acidic systems also use up oxygen reserves. This can lead to a cycle of toxin accumulation and oxygen depletion. One way in which the body combats excess acidity is by trying to neutralize it with oxygen. To do so, it must continually divert oxygen away from its primary metabolic functions and direct it toward the acidic cells and tissues.

5. Oxygen shortages and infection. When body oxygen falls to extremely low levels for prolonged periods of time, the body may become a breeding ground for harmful bacteria, viruses, fungi, parasites and other infectious agents. Most of these are anaerobic, meaning they cannot live in an oxygen-rich environment. Some research indicates that when the oxygen content of the body is within a normal level, infectious microorganisms have a more difficult time breeding and multiplying. The partial pressure of oxygen in normal blood should be approximately 97%. Within each red blood cell are iron-rich hemoglobin molecules. Approximately 97% of the oxygen carried to the cells is attached to these hemoglobin molecules with 3% of the oxygen supply dissolved in the blood plasma. When your blood oxygen levels remain low for extended periods of time, the cells cannot get an adequate and consistent supply of oxygen and they may have difficulty resisting the invasion of microorganisms.

6. Lack of exercise. The body responds to exercise by increasing oxygen intake by breathing hard and deeper. This increase in blood oxygen levels helps the body perform two very important functions. First, the additional oxygen permits the creation and release of more energy for the exercise. Second, the increased supply of oxygen is utilized by the body to remove by-product wastes that are the result of a higher metabolic rate. A sedentary lifestyle can inhibit the removal of toxic wastes from the body.

What is H2O-BOO2ST Liquid Oxygen? H2O-BOO2ST is a unique formulation of oxygen in a saline base. Unlike its predecessors, which have used either hydrogen peroxide or chlorine bound oxygen molecules, H2O-BOO2ST is a natural product containing bio-available oxygen. H2O-BOO2ST is the world’s premiere concentrated oxygen supplement. It’s been the best for almost a decade! The chemical components in H2O-BOO2ST are distilled water, sodium chloride (from sea salt), bio-available oxygen and essential and trace minerals. Other oxygen supplements bond their “active” oxygen to salt molecules forming oxychlorine or oxy-halogen compounds, which drive up the pH of these supplements to levels that could be dangerous to the skin and delicate membranes in the oral cavity if taken improperly.

H2O-BOO2ST is:

• An all-natural supplement

• Contains one of the highest concentrations of activated oxygen available today.

• Ph balanced (app. 7.4)

• Contains no chlorite molecules

• Non-toxic and safe to use both orally and topically

Importance of pH in selecting an oxygen-enhanced dietary supplement. 
H2O-BOO2ST Oxygen is pH balanced (approximately 7.4). Other oxygen products are based on oxychlorine compounds and contain sodium chlorite, which results in high pH values, normally in excess of 10. To neutralize the high pH of these products, the body must manufacture and release higher concentrations of hydrochloric acid in the stomach that reacts with the chlorite ion to create a chlorine and diatomic oxygen molecule. It is only when these molecules are broken up that the oxygen can theoretically get into the blood stream. H2O-BOO2ST, however, contains bio-available oxygen and does not depend on the digestive process to be absorbed. In fact, it can also be safely taken sublingually. If these chlorite-based supplements are not adequately diluted in water before consuming, the oxychlorine compounds can damage sensitive membranes before the stomach has a chance to begin the neutralization process. This is especially a concern for individuals who have problems secreting sufficient amounts of stomach acid (hydrochloric acid). The stomach may also overproduce stomach acid in an attempt to neutralize these chlorine-based stabilized oxygen products. This overproduction may irritate the stomach. H2O-BOO2ST contains no chlorite molecules.



NOTICE: This information is intended for educational purposes only and should not be construed as medical advice. These statements have not been evaluated by the Food and Drug Administration. These products are not intended to diagnose, treat, cure, or prevent any disease. Consult a qualified medical practitioner before taking any dietary supplements.

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