Some of the most interesting work on electromagnetic frequencies affecting cancer cells has been done by Dr. Gorgun in Italy and published in Frontier Perspectives, the journal of the Center for Frontier Sciences at Temple University. An email today referred to my previous posting on this topic, Electromagnetic Fields Directly Affect Mitosis of Cancer Cells, and directed me to Dr. Gorgon’s personal web site which is a treasure trove of his papers. The following paper has excellent photos of cellular apoptosis and xrays of cancer patients treated successfully with frequency therapy.
Studies on the Interaction etween Electromagnetic Fields and Living Matter Neoplastic Cellular Culture
Suleyman Seckiner Gorgun, Collegno, Italy
Frontier Perspectives, ISSN: 1062-4767, Volume: 7, Number: 2, Fall, 1998.
The study of the interactions between electromagnetic fields and living matter has become a fertile field for research in the last century, even though these phenomena have been empirically observed by various civilisations since ancient times (1, 2). Considerable experimental evidence today points to the possibility of modulating biological functions and structures in a controlled way by applying electromagnetic fields and, vice versa, the possibility of detecting and measuring endogenous electrical currents in living organisms and their components.
There are two types of electromagnetic effects on living matter: thermal effects and non-thermal effects. Thermal effects induce an increase of entropic disorder in the target, until at adequate frequencies and power levels, the effects of ionisation develop. The non-thermal effects are not the result of the transfer of erratic movement by means of an increase of kinetic energy, but rather, in line with the theories of the coherence of condensed matter, they can transmit information that would produce order in the bio-structures involved.
The information content of the electromagnetic waves would depend strictly and specifically on the waveform, the string of waves, and the time sequence of their modulation. In fact, specific variations in the configuration and temporal exposure patterns of extremely weak electromagnetic fields can produce highly specific biological responses, similar to pharmaceutical products. These effects are attracting considerable scientific interest mainly because an electromagnetic wave is easily modulated and thus is an excellent means for the transmission of information. Studies carried out by various writers suggest the possibility of non-thermal effects…
Based on these studies, it is reasonable to consider patterns in living matter that take into account the electromagnetic components of biological structures. Every cell, for instance, is made up of biological and chemical components that can be described in simpler and simpler terms down to the cell?s elementary molecular constituents. But the cell itself and its internal and external interactions can also be considered in terms of electric and electromagnetic interactions and relationships.
Numerous experimental works have shown the possibility of modifying and controlling the selective permeability of the cell membrane by transmitting electromagnetic waves. This leads to the possibility of verifying the specific reactions of healthy cells compared to the reactions of pathological cells and subsequently to select target cells on which to act for clinical purposes. Pathological cells resonate differently from healthy cells due to a different tissue composition.
On these bases, various authors have noted the modulation of some cell functions, from ionic membrane pumps to many cytoplasmic enzyme reactions, including those connected with cell replication. From these studies it has been seen that these effects can be obtained from low intensity electromagnetic waves (under 1 watt) and specific frequencies (within the range of 1 Hz to 50 MHz). Along this line, preliminary observations performed in vitro have shown alterations of the cell morphology, the halt to proliferation, fusion, and necrosis in lymphoblastoid cell lines and some neoplastic lines subjected to specifically modulated electromagnetic radiation.
Reported here are some demonstrative examples to show the biological effects of electromagnetic fields. The electromagnetic waves have a power of 0.25 watts and are in the kilo- and megahertz ranges. They do not produce thermal effects on the bio-structures and have been modulated according to the patterns elaborated by Gorgun. The examples presented here are indicative of significant biological and clinical effects both in vitro and in vivo. The action of these electromagnetic waves on neoplastic cell culture produces fusion and takes place through alteration of the cell potential (Grade 1), whereas cell necrosis takes place with the alteration of the cell structure (Grade 2).