MadSci Network: Cell Biology |
Question: Why do cancer cells resonate when subjected to low frequency microwaves? From: Sukhpreet Grade: 10-12 City: Birmingham, State/Prov.: No state entered. Country: England Area: Cell Biology Message ID Number: 1077109705.Cb I am researching the TRIM probe(Tissue Resonance Interferometer) this works by beaming low frequency micrwaves(850-1350MHz) onto cancer cells causing them to resonate and produce their own signal, i would like to know how and why the cells resonate and the effect the microwave has inside the cancer as well as the effect of the cancer cell on the microwave, particularly the effect of DNA. Answer: Hi! The use of TRIM probe on cancer cells shows pretty interesting results. Interesting experimental results show differences in the light emitted from cancer compared to normal tissue. The decay rate of ultraweak biological light is more rapid in malignant than normal cells, which implies that cancer cells have a poorer photon storage capacity. Photon intensity of normal cells decreases nonlinearly with increasing cell density, and for cancer cells increases with increasing cell density. This suggests evidence for mutual long-range interactions between cells in a population, which are fundamentally different for normal and cancer cells. It could also be interpreted as indicating a loss of coherence with increasing tumor size, compared to greater coherence in normal tissue. Furthermore, this relationship between light intensity and cell density dependence, always the opposite for normal and malignant cell populations, shows that the results cannot be explained in terms of properties of single cells, but in terms of whole tissues, again suggesting a novel communication mechanism within the organism. The TRIMprob emits a beam of coherent electromagnetic waves at very low power which tunes on the specific frequencies of the examined structures. When the electromagnetic field hits a biologically altered tissue, a phenomenon of interference with the analysed structure takes place. This phenomenon is interpreted by specific algorithms, and allows the detection of cancer and other pathologies: vascular disorders, joint and bone diseases, sinew and muscle injuries, inflammatory conditions, fibromas. Cancer cells or DNA has NO effect on the microwave beam. From, Abhishek Dey Das. URL: http://www.freepgs.com/abhishek
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