ELECTRON MICROSCOPE PHOTOGRAPHS BEFORE AND AFTER IONISATION
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These are red blood cells. They look like a doughnut without the hole and carry oxygen to the body and remove carbon dioxide from the body. There are about 5 million per cubic millimeter of blood. |
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This picture shows a "coinroll formation". The red blood cells are stuck together which greatly diminishes the free surface on each blood cell which can absorb oxygen and nourishment. The sticky substance is fibrin. |
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This picture shows the results of magnetic treatment. Each blood cell is free to absorb the maximum amount of oxygen from the lungs, carry it to the body tissues, exchange it for carbon dioxide and deliver that back to the lungs. |
In a nutshell, magnetic wave therapy is understood to work by increasing blood flow and oxygen to the pain affected area. The increased blood flow produces higher levels of anti-inflammatory white blood cells and oxygen rich red blood cells, whilst removing the toxic material which causes pain. This leads to an easing of pain, and kick-starts the healing process. Tiny mineral ions, such as sodium, potassium, calcium and magnesium are carried around in the blood stream and when they become exposed to a magnetic field, charged with its own negative and positive polarity, a separation occurs. This separating movement generates heat and creates small electrical currents within the bloodstream and the impact of this magnetic heat causes the capillary walls to relax, resulting in a widening of the blood vessels, thus allowing more blood to pass through the capillary. The improved efficiency in blood flow and fluid exchange helps reduce pain and inflammation caused by injured tissue and this boost not only eases pain but also stimulates the healing process. It is also thought that the movement and heat created by the application of a magnet to a specific area of the body also has an impact on the working of the nervous system.
In magnetic therapy treatment built into our Greyhound collars, static magnets are used which, unlike electromagnets have an in-built, permanent magnetic field that never needs replenishing. Any static magnets would influence blood flow but it is how the magnets are laid out that will determine the overall effectiveness.
All magnets have a north and south polarity and the most effective magnet design uses concentric circles of alternating polarity as this allows the magnetic field to penetrate deeply into the body tissues.
This system of concentric disc and annular magnets made of the rare earth Neodymium turns the configuration into an Induced Pulse Magnetic System ( IMPS ) and has been patented by us at ROMO.
