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DECLOAKING PATHOGENS WITH LOW-FREQUENCY SOUND DECLOAKING PATHOGENS WITH SOUND LOW-FREQUENCY A variety of disease- causing pathogens and health problems can be identified in the voice print and can be cancelled out by the input of complementary frequencies and harmonics. hroughout history, mankind has been plagued by infectious diseases. With the advent of modern biochemical antibiotics, many of these older dis seem to have been eradicated. However, many new diseases have been identified, some of which are mutations of previously "cured" diseases, in the form of resistant pathogens. Our entire ecosystem has now become vulnerable to these resistant pathogens due to the fact that as these invaders move from host to host they mutate, so that what worked against them today doesn't work tomorrow. This has caused extreme concern for those in charge of public health. If we don't have the resources to keep up with the muta- tions, how can the public be protected? How will the people even know how to take pre- cautions against infection? Controversial biophysicist Hulda Clark, PhD, ND, stated in her book, The Cure For All Disease, that cancer, one of the most feared of diseases, is caused by pathogens—specifi- cally, parasites whose life cycles are aided and abetted by modern chemicals that we encounter. She is certainly not alone in identifying links between parasites/pathogens and modern illness. Chronic fatigue shows a strong connection with Epstein Barr virus. Heart disease and pulmonary embolism have been connected with Chlamydia pneumoniae. The list is long and growing. To add to the problem, these pathogens have been able to use the body's processes against it. Using the sloughed-off protein of the host, these pathogens have the ability to create a protective cloak so that the body will be fooled into thinking that the pathogen is part of our normal form and function. SOUND SOLUTIONS FOR OVERCOMING DISEASE What can be done to combat this problem? The Sound Health Research Institute, a non-profit organisation located in rural Ohio, USA, has been conducting studies using an emerging technique known as BioAcoustics™ to help find answers. [See Sharry Edwards's article in NEXUS 4/03, April-May 1997, for background information. Ed.] In recent months, BioAcoustics technology has been shown under microscopic observa- tion to be able to dissolve the ringed protein barrier used by some of these pathogens to cloak themselves. The technique was used successfully against the Epstein Barr virus, Chlamydia pneumoniae bacterium and yeast. It has potential in the eradication of such diseases as chronic fatigue, influenza, AIDS, etc., and it certainly will help in the fight against antibiotic-resistant pathogens including the resistant "flesh-eating bugs" which have been in the news recently. At the beginning of the study, frequencies identified in Dr Clark's book were used, but it was found that these were not accurate or that mutations in the pathogens had taken place, thus making these frequencies unusable and necessitating the search for new, cor- rect frequencies. Below is a short review of the initial study, involving 17 participants, in which the Epstein Barr virus, the Chlamydia pneumoniae bacterium and yeast were target- ed. (Note that in the case of the yeast, the decloaking and deactivation happened so quickly that the yeast could not be seen within a minute or so.) by Sharry Edwards, MEd © 2000 SOUND HEALTH PO Box 416 Albany, Ohio 45710, USA Telephone: +1 (740) 698 9119 Fax: +1 (740) 698 6116 E-mail: sound@frognet.net Website: www.soundhealthinc.com SOUND HEALTH PO Box 416 Albany, Ohio 45710, USA Telephone: +1 (740) 698 9119 Fax: +1 (740) 698 6116 E-mail: sound@frognet.net Website: www.soundhealthinc.com Epstein Barr Virus A filmed recording of the activity under the microscope shows that when the coating of the Epstein Barr virus was dissolved, the neutrophils (the white blood cells that attack invaders) were activated. The activity of the neutrophils was nil until the Epstein Barr was decloaked by the appropriate frequency, even though the two were separated by minute distances. As the decloaking transpired, it was obvious that the neutrophil had not NEXUS 27 OCTOBER — NOVEMBER 2000