Physical aspects of chemical carcinogenesis

" Our findings indicated that DMBA derivatives did not exhibit damaging effects on mitochondrial membranes. On the contrary, they showed a stimulating effect on the phosphorylation process compared with the control. This paper discusses the possible role of coherent electromagnetic radiation in biological systems. Additionally, data on the non-chemical interactions between isolated mitochondria and the material (plexiglass and quartz) of the incubation cells were considered. Carcinogenesis was previously considered an exclusive process of biochemical and genetic disorders.However, recent studies have increasingly focused on the physical aspects of carcinogenesis, such as the influence of various wavelengths of electromagnetic radiation on biological systems, the special energy organization of the intracellular space associated with the architectonics of mitochondria and microtubules, and the generation of coherent electromagnetic waves. It was assumed that the biological features of the malignant cells were due to the violation of the electrodynamic parameters of the intracellular space, and the initiating factor was the intrinsic emission of carcinogenic substances." {Credits 1}

" Thus, the results indicated the dependence of mitochondrial metabolism on the material and the luminescence level of the incubation cells [1]. Functional changes in mitochondrial metabolism may be modified by non-thermal coherent electromagnetic radiation in the system (quartz or plexiglass structure + incubation medium with oxidation substrates and molecular O2 + mitochondria), consistent with the previously expressed considerations on the fundamental possibility of such a regulation mechanism in biosystems [4, 5]. The data also indicated the possibility of non-chemical interactions between the carcinogen and the enzyme regulators of the mitochondrial cycle of the "distant interaction" of non-equilibrium-excited electronic systems, that is, the interaction of the system of -electrons of the active zones of the carcinogen molecule and enzymes due to coherent radiation." {Credits 1}

{Credits 1} 🎪Batyanov, A. P. (2023). Physical aspects of chemical carcinogenesis. © 2023 The Author(s). This is an open access article distributed under the Creative Commons Attribution International License.