This month, we have assembled a special issue on cutting-edge energy treatments for a host of so-called incurable illnesses.
American chiropractor Carolyn McMakin has achieved the seemingly impossible in patients with chronic pain and many other conditions after developing equipment that can deliver specific microcurrent frequencies to the body. We’re also featuring new research with infrared light showing extraordinary promise for everything from a bad gut and heart conditions to Parkinson’s.
Although the two systems work very differently, they are founded on a similar principle: the body as an energetic system, communicating and profoundly affected by electromagnetism.
Although members of the medical community have been astounded by the effectiveness of both systems to stimulate energy production in cells at specific frequencies, the idea of the body electric is nothing new. Russian scientist Alexander Gurwitsch is credited with first discovering what he called “mitogenetic radiation” in onion roots in the 1920s.
Gurwitsch postulated that a field, rather than chemicals alone, was probably responsible for the structural formation of the body. Although Gurwitsch’s work was largely theoretical, later researchers were able to show that a weak radiation from tissues stimulates cell growth in neighboring tissues of the same organism.
Many 20th-century biologists and physicists went on to advance the idea that radiation and oscillating waves are responsible for synchronizing cell division and sending chromosomal instructions around the body.
Perhaps the best known of these is Herbert Fröhlich of the University of Liverpool, one of the first to introduce the idea that some sort of collective vibration was responsible for getting cellular proteins to cooperate with each other and carry out the instructions of DNA and other regulators.
Fröhlich even predicted that certain frequencies (now called “Fröhlich frequencies”), which occur just beneath the cell membranes, could be generated by vibrations in proteins. This “wave communication” was proposed as the means by which the miniscule movements within proteins are carried out and a good way to synchronize activities between proteins and the system as a whole.
Then in 1970, while studying cancer, the late German physicist Fritz-Albert Popp stumbled upon the fact that all living things, from single-celled algae to human beings, emit a tiny stream of photons—basic units of light.
He labeled them “biophoton emissions” and believed that he had uncovered the primary communication channel of a living organism—that it uses light as a means of signaling to itself and the outside world, and that this faint radiation, rather than biochemistry, is the true driving force in orchestrating and coordinating all cellular processes.
Popp theorized that this light must be like a master tuning fork, setting off certain frequencies that would be followed by other molecules of the body. After years of impeccable experimentation, he was able to show that these tiny frequencies were mainly stored and emitted from DNA, and the signals contained valuable information about the state of the body and the effects of any particular therapy.
The other giant in this field, described as a “modern Galileo” by French virologist and Nobel prize winner Luc Montagnier, was the late French biologist Jacques Benveniste, whose experiments over many years conclusively demonstrated that cells don’t rely on the happenstance of chemical collision, but rather on electromagnetic signaling with low-frequency (less than 20 kHz) electromagnetic waves.
According to Benveniste’s theory, two molecules can be tuned into each other, even at long distance, and resonate at the same frequency. These two resonating molecules would then create another frequency, which would in turn resonate with another molecule or group of molecules, in the next stage of the biological reaction. This explains why tiny changes in a molecule—the switching of a peptide, say—can radically affect what that molecule does.
Benveniste began to demonstrate in the laboratory what Popp had proposed—that each molecule in the universe had a unique frequency, and the language it used to speak to itself was a resonating wave. Every molecule of our bodies was sounding a note that was being heard—and replied to.
Although pioneers like Popp and Benveniste made their breakthrough discoveries nearly half a century ago, medicine is only finally catching up.
As we cease relying on carbon emissions to power our cars, so this new decade may see medicine slowly weaning itself off of chemicals as the treatment of choice for many illnesses and turning to the greater precision—and safety—of frequencies.
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