For  a small fraction of a second during the photosensitisation process, the oxygen
                  molecule destabilises and becomes Singlet Oxygen. This occurs when one of the
                  molecule's electrons starts spinning in the opposite direction and rotating in a wider arc
                  before returning to its original position. When it does so, what is known as Singlet Oxygen
                  Energy (SOE) is emitted. Although the lifetime of Singlet Oxygen can be measured in
                  thousandths of a second, the energy released can be quite significant. In nature, we have
                  witnessed the regenerative properties of SOE in relation to plant growth.

                  Dr. Claudia Schöllmann writes, “Through a process similar to photosynthesis, oxygen is
                  continuously converted into the singlet state. In the unit the singlet state (1Δ2) of O2
                  reacts back into the triplet basic state which occurs naturally in the air (3Σ2). The energy
                  that is released during this conversion back to the triplet state is immediately absorbed by
                  water molecules in the (moist) air that is breathed in. The user breathes in these activated
                  water molecules – and not activated oxygen states – via a lightweight nasal cannula. In
                  the organism the air energy improves oxygen utilisation and the anti-oxidative capacity -
                  this can be measured. It is still not completely clear just how the energy of the water
                  molecules is transformed into metabolic energy. Many findings would suggest that the
                  energy-rich water molecules carry their energy/information to points in the body where
                  the organism activates oxygen itself in order to utilise it, or its energy, for metabolic
                  reactions. Important  “points” in these terms are the surface films (surfactants) in the
                  alveoli, the interstitial and intracellular fluids as well as the fluid membranes of the cells
                  and mitochondria.”

                  Dr. Claire Bowen writes, “Oxygen is not only key to energy production – it is also an
                  essential component, in its different forms, of the body’s detoxification system (through
                  the process of ‘oxidation’ of toxins into harmless basic elements), the immune system
                  (for example, as the superoxide ion used by immune cells to fight invading pathogens),
                  the optimal absorption and assimilation of nutrients from digestion in the gut, as well as
                  the body’s own self-healing mechanism through the ‘oxidative response.’ For recovery
                  from any illness and movement towards truly optimum health, we really need to optimise
                  the amount and quality (i.e. how available it is) of the oxygen we inhale, transport around
                  our body and provide to our cells!”

                  Traditional oxygen therapies are based on the assumption that providing the body with
                  more oxygen will result in more oxygen actually being used by the cells of the body.
                  Activated Oxygen Therapy uses a different basis – that the oxygen in normal air can be
                  altered to improve  absorption and utilisation within the body,  without increasing the
                  pressure or concentration of oxygen inhaled.
















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