What is Ozone?
Ozone is a natural gas that forms in the atmosphere thanks to electrical discharges that modify the stable molecular structure of oxygen (O2), transforming it into O3. It has a slightly bluish color and a pungent smell. An ozone molecule is therefore made up of three oxygen atoms and is unstable: in fact, one of the three atoms tends to split off to join other molecular structures, causing the oxygen molecule (O2) to return to its stable form. But it is precisely from this instability that its beneficial properties derive.
In fact, nothing on earth destroys bacteria and viruses better than ozone. It can also be used to eliminate fungi, mold, pesticides, heavy metals, nitrates, nitrites and other potentially harmful substances. Thanks to its oxidizing capacity, it kills bacteria by attacking the molecular structure of their protective membranes and altering their internal enzymes. By modifying the molecular composition of molds, fungi and algae, it can destroy them. Ozone is also able to penetrate the internal structures of viruses, damaging viral nucleic acids and thus preventing their replication.
No bacteria, virus or fungus can resist the right dose of ozone, administered at the right time. In addition, it normalizes and rebalances the immune system, intervening against immunodeficiencies and excessive responses, for example in the case of allergies. Not forgetting its analgesic and anti-inflammatory properties, and its ability to improve cellular metabolism. In the areas of the body where it is administered, ozone improves blood circulation, especially the microcirculation of the capillaries, dissolves body fat (very effective against cellulite and localized adiposity) and acts against tense and contracted muscles.
Oxygen and ozone therapy could also be a valid remedy for the growing problem of bacterial resistance to antibiotics. This phenomenon is fueled by the abuse or misuse of drugs that stimulate bacteria's ability to resist their action. Ozone is capable of destroying even those bacterial strains against which even the most powerful antibiotics in circulation prove ineffective.
How can Ozone be administered?
Ozone can be administered in various ways, all certified by medical-scientific protocols authorized by Sioot and approved by the Ministry of Health:
- Large self-infusion: 100 or 200 cc of blood are taken from a vein in the patient's arm. The blood ends up in a certified bag. Without removing the needle from the patient's blood sample, a special device inserts a gaseous mixture of oxygen and ozone into the bag and mixes it with the collected blood. The tourniquet is then removed from the patient's arm, the bag is lifted and the blood returns to the patient's body, bringing with it the ozone and all its beneficial effects.
- Small autohemoinfusion: The principle is the same as for large auto-hemoinfusion, except that in small auto-hemoinfusion a few cc. of the patient's blood is taken, enriched with a gaseous mixture of oxygen and ozone and reinjected intramuscularly instead of intravenously with a syringe.
- Subcutaneous, intramuscular and intra-articular injections of oxygen-ozone: the oxygen-ozone mixture is injected in different quantities, in different ways and into different areas of the body, depending on the pathology being treated.
- Rectal, anal, vaginal, uterine and urethral oxygen-ozone insufflations: the mixture of oxygen and ozone is introduced into the respective areas via small catheters. The ozone thus comes into direct contact with tissues subject to infection, inflammation, irritation, pain or other uncomfortable conditions.
- Topically: apply to hands, arms, feet and legs. The area concerned is wrapped in an insulating plastic bag into which the ozone flows.
- Hydroponic: the patient regularly drinks ozonated water and their body can thus enjoy the overall benefits of ozone.
The validity of ozone administration methods and oxygen therapy as a treatment tool for numerous pathologies is confirmed by a bibliography of more than 1,800 papers published since 1995 on www.pudmed.com, a kind of online encyclopedia that lists all the scientific articles published in the most important medical journals.
Ozone is an enriched form of oxygen (O3), it is blue and has a peculiar smell.
In space, it protects us from ultraviolet radiation. It is the most effective bactericide on the planet. Its ability to release oxygen is incredible. There is an oxygen cycle in nature, just as there is a water cycle.
Oxygen is released by plants through the process of photosynthesis: in other words, by absorbing CO2 and releasing O2. It is heavier than air and tends to accumulate in the upper atmosphere. At a height of 20-30 km from the earth's surface, ultraviolet radiation, with a wavelength of 185-200 nanometers, affects oxygen and transforms part of it into ozone (O3).
The ozone thus created forms a thin layer in the atmosphere that absorbs and blocks part of the UV spectrum. The vast majority of UV rays reach the earth and we notice this when we get a tan. Regarding the destruction of the ozone layer, the reality is that the production of ozone in the upper atmosphere depends on the amount of energy coming from the sun.
During peak solar activity, ozone is created at a faster rate. During breaks in the sunspot cycle, the ozone layer becomes thinner. The lowest level ever measured was in 1962. At night, on the dark side of the planet, the ozone layer disappears within a few hours. The level is restored as the sun rises in the morning. During polar winters, ozone does not develop due to the absence of sunlight.
Ozone is constantly produced in the upper atmosphere while the sun is shining and, because it is heavier than air, it tends to accumulate on the Earth's surface. On its way down it combines with the pollutants in the air, performing a real cleaning and sanitizing of the air. Through ozone, nature triggers a system that we could define as self-cleaning. When ozone mixes with rainwater, it forms hydrogen peroxide, a compound that promotes plant growth.
In addition to solar radiation, lightning contributes to the formation of ozone. During a storm or thunderstorm, the amount of ozone produced is three times the permitted limit of 0.15 ppm, as set by the US EPA. This concentration of ozone is responsible for that fresh smell after rain and is the greatest benefit for those lucky enough to breathe ozone at such times.
These are forms of ozone produced by natural processes in the atmosphere.