Using sound waves to neutralize pathogens and mutations
To examine the mechanisms of resistant pathogens and mutations that plague our world population, a pilot study was conducted to test the possibility that low frequencies of sound may affect the activity of pathogens in the blood.
Although this idea is controversial, it has been argued in the past that when an invader penetrates the organism, it tries to disguise itself to avoid detection by the immune system. During this study, a low frequency of sound, produced in analog form, was used to reveal the bubble-like defense mechanism that invasive pathogens use to mask their presence in the body.
Preliminary results of the study show that these low sound frequencies resulted in damage to the camouflage mechanism of the intruders. In addition, it was found that certain combinations of frequencies are able to support the immune system in its attempts to identify the invaders and eliminate them, thus bringing about a reduction in the patient’s symptoms.
A video recording of the activity under a microscope showed a reduction in the invaders’ attack on the immune system’s T cells once the mask was removed. In addition, there was an increase in neutrophils (cells that support the activity of the immune system) that began to act against the invader as soon as the barrier was removed. In fact, as long as the camouflage existed, it seemed that the neutrophils were not at all aware of the presence of the invader, even though the physical size of the barrier that masked them was very small. From the moment the barrier was removed by the low frequencies they recognized the intruder and began attacking it!
Although further studies are needed, the results of this study indicate that the use of low sound frequencies may lead to the identification and damage of invasive pathogens. This has implications for the possibility of treating diseases caused by these viruses such as anthrax, bird flu, smallpox, salmonella and more.