Bioinfluence with Infrared Thermal and Electromagnetic Fields as a Therapeutic Approach of Hamsters with Experimental Graffi Myeloid Tumor

Abstract

The aim of the present experiments was to study the effect of bioinfluence - Infrared thermal field (ITF) and electromagnetic fields (e.m. fields) on the progression of experimental tumor in hamsters.Spectral analysis methods called Non-equilibrium spectrum (NES) and Differential non-equilibrium spectrum (DNES) for 1% solutions of blood serum from hamsters with cancer and healthy hamsters were investigated. Drossinakis had an effect on hamsters with cancer. Results are obtained with the DNES method compared to the control serum samples of hamsters with cancer and healthy hamsters. The spectrum was obtained in the range    (-0.0937 eV; 13.23 μm; 755 cm-1) - (-0.1387 eV; 8.95; μm; 1117 cm-1). The average energy (∆EH...O) of hydrogen Н…O-bonds among individual molecules H2O after treatment of Drossinakis was measured by NES- and DNES-methods. The result ∆E=-0.0071±0.0011 eV is according control serum samples of hamsters with cancer and ∆E=-0.0035±0.0011 eV is for healthy ones. These results suggest the restructuring of ∆EH...O values among H2O molecules with a statistically reliable increase of local extremums in DNES-spectra. Local extremum was obtained at (-0.1212) eV, which is an indicator of anti-inflammatory effect. Another local extremum was obtained at   (-0.1387) eV, which is an indicator of inhibition of development of tumor cells at the molecular level. The effects of Drossinakis influence– anti-inflammatory, antioxidant, and cancer development  inhibition are shown. This article deals with the review of the basic biophysical-biochemical and biological processes underlying the influence of  Drossinakis. The authors are studying their physical-chemical properties and biophysical and biological effects on the organism of hamsters. Another research by Toshkova has shown that the life span of cancer hamsters influenced by Drossinakis has been increased. Keywords: Infrared thermal field (ITF), electromagnetic fields (e.m. fields), experimental Graffi solid tumor DOI: 10.7176/JNSR/9-4-0