Magnet Field Therapy – Vibratory Energy Resonance Therapy

Our universe, matter, atoms, quarks, neutrinos, and biological systems like ours, that is, our cells, are subject to a natural process of disintegration.

It is widely discussed that there should be a physical interrelationship of a subatomic program and the aging process of biological systems, but the medical and pharmaceutical industries prefer to base their research on the rational and practical thesis of aging by friction. do (Linus Pauling)

However, the fact is that different biological systems have large differences in their life expectancies. While the mayfly has practically no chance of surviving for more than a day and hummingbirds or guinea pigs are not expected to live as long, humans have the potential to live up to 120 years. If you want to get information about magnetic pulse treatment find it on the internet.

 Sea turtles can live more than 300 years. But it seems that non-biological systems such as elementary particles have a predetermined expiration date, e.g. The life expectancy of a proton is thousands of years.

While there is something mysterious about the timing of the dissolution of elementary particles, the thesis regarding biological systems is that the biological age is directly linked to the energy production of a living being. In other words, it can be said that the death of a person is due to the loss of more and more active cells during cell division, thereby gradually deactivating themselves.

Electromagnetic cell regeneration (ECR), which is the underlying technology of magnet field therapy, uses the knowledge of this research and measuring techniques to document the success of the therapy. Regenerating your cells regularly with Magnet Field Therapy Mat gives your body cells a full bio-energy level.

Another technique that is used within magnet field therapy is even more noteworthy. Let's go back to the previously mentioned subnuclear program of cells, which means the physical phenomenon that more and more body cells lose active cells during cell division and therefore gradually deactivate themselves.