Magnetic Molecular Energizing (MME) is closely related to a more common medical diagnostic method known as Magnetic Resonance Imaging or MRI. MRI signals are used for visual scanning of internal organs such as the brain, spine or liver.

MME Magnet The difference, however, is that MRI is strictly an imaging method and not a treatment method. In early 1990, Dr. Dean Bonile began studying magnetism and its effects on the human body. He discovered that a low level negative magnetic field induced through the body with a layer of magnets beneath the body resulted in the relief of numerous symptoms, such as arthritic symptoms, pain relief, back problems and sleep disorders. This led to the study and research of higher strength magnetic fields similar to those produced by a MRI scanner as a possible treatment method. Dr. Bonlie found that the proper induction of a magnetic field enhanced the healing and regeneration inherent in the human body.

Magnetic Molecular Energizing (MME) is a treatment method that consists of the application of high gauss (3,000 to 5,000) direct current fields. An MME device consists of two very large and strong electromagnets with the patient lying in a focal point between the electromagnets.

The human body is electromagnetic, composed largely of charged particles such as atoms, electrons, protons and ions, which all perform vital life functions. When a patient is placed in the MME device, there is a temporary increase in the magnetic force on the atomic composition of the cells in the area of the MME focal point. This force results in a higher velocity of some of the orbiting electrons. The increase in velocity of these affected electrons causes precession or wobble of the atom, and when combined with higher velocity, leads to enhanced electron transfer. Electron transfer is the basic action of chemical processes of the body.

Therefore, the magnetic field of the MME device acts as a catalyst to improve chemical reactions occurring within the human body. This in turn improves a variety of bodily functions in the affected area of the MME treatment, such as improved capacity to carry oxygen, improved assimilation of nutrients, manufacture of enzymes, removal of metabolic waste, reduction of free radicals and tissue regeneration. Most importantly MME can accelerate the typical healing process of the body. For example, a bone fracture typically requiring 6.8 weeks to mend may require only a few days with an MME treatment.