It's not magic ... it's pure physics!
Living cells are composed of ions, polar or charged molecules, membranes and organelles, and they respond to electric fields and currents, often generating them themselves.
Briefly, bioresonance therapies and other therapies that use electronic devices are aimed at both diagnosing internal organ stress and normalizing the body's electrical properties and wave emission. This is based on the claim that unhealthy cells or organs emit altered electromagnetic waves. The reverse change of these waves causes the cell to return to the appropriate level of the oscillatory vortex or destroy the pathogen with the use of appropriately selected electromagnetic waves.
Frequency therapy is based on the effects of low-frequency electromagnetic radiation on pathogenic microorganisms. The resonance frequency reflects some of the physical properties of the microorganism with which it resonates.
Although we can only detect the light component with the naked eye, frequency therapy it mainly uses electromagnetic oscillating fields, the action of which is purely physical, and their action at the cellular level is studied by bioelectrodynamics.
Currently, the effects of electromagnetic waves are used in medicine, including in diathermy, magnetotherapy, electrotherapy and microwave hyperthermia. Frequencies can be applied to the body by an alternating electric current, an electromagnetic field, or a sound wave.
However, the therapeutic use of EM generators is very complex and cannot be reduced to the effects attributed to the above methods. Living cells are composed of ions, polar or charged molecules, membranes and organelles, and they respond to electric fields and currents, often generating them themselves. Most subcellular biomolecules (e.g. DNA, RNA, tubulin, actin, septin etc.) are either charged and therefore surrounded by counterions, or have high electrical dipole moments. Living organisms are full of oscillating electric charges and therefore can be treated as complex electrochemical and mechanical systems.
Electromagnetic therapy can be used as adjunctive therapy in all ailments in which microbial origin is proven or suspected. These devices are increasingly used to support the treatment of infectious diseases. Conventional methods often fail, so there is a market gap for electromagnetic therapy alternatives to drug therapy. The bodies of microorganisms consist of organic molecules that can absorb and react to the radiation they emit. If such radiation is amplified enough, it can destroy these microbes.
Many in vitro and in vivo studies show undeniable immunomodulatory effects of the EM field. In 1981, Stanisław Szmigielski discovered that short-term irradiation of animals with electromagnetic waves stimulates the production of antibodies and accelerates the maturation of B lymphocytes. Since then, many other in vitro and in vivo studies have been demonstrated, demonstrating the undeniable immunomodulatory effects of EM field. In addition, the breakdown of microbes caused by the EM waves generated by the plasma emitter exposes individual microbial components to the immune system. This creates a faster and better immune response.
Why do we use a plasma emitter to overlay EM fields?
Plasma is an ideal medium for mixing and transmitting various types of signals. In order for an ionized gas to be considered a plasma, it must exhibit collective behavior, i.e. the ability to react together to electric and magnetic fields and create them simultaneously through their movement. The second basic property is quasi-neutrality. It is the approximate equality of the concentrations of positively charged ions and negatively charged electrons. Plasma contains free electric charges and is therefore electrically conductive. For this reason, it is an ideal medium for mixing and transmitting various types of signals. The plasma tube emits pulsed electrical and magnetic spectra up to terahertz frequencies, which appear in the red color of the plasma, and these frequencies propagate evenly in all directions.
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