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 – Graffi myeloid 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 has a beneficial effect on the Graffi tumor-bearing hamsters. 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 (∆E H...O ) of hydrogen Н…O-bonds among individual molecules H 2 O 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 ∆E H...O values among H 2 O 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 the tumor-development inhibition at the cellular- and the molecular level. The beneficial effects of Drossinakis are characterized as the anti-inflammatory, anti-oxidant, anti-cancer, anti-stroke,etc. This article deals with the review of the basic biophysical-, biochemical- and biological processes - bio-influenced of Drossinakis. In this sense, the experimental research of Toshkova and co-authors has shown increased life span of the tumor-bearing hamsters, bio-influenced by Drossinakis. There are new analyses from hematological studies from Zvetkova. Keywords : Christos Drossinakis - bioinfluence, Infrared thermal field (ITF), Electromagnetic fields, Experimental myeloid tumor of Graffi , hematological studies - erythrocytes DOI : 10.7176/JMPB/54-02 Publication date : April 30 th 2019
Highlights
The strong bio-influence of Drossinakis has been proved via the application of the methods biophotons (Popp), thermovision (Schlebusch), spectrum analysis of water (Antonov, Ignatov), color coronal spectral analysis (Ignatov), gas discharge visualization (Korotkov), synchronizing of brain electromagnetic waves (Li Gendinovich) etc. at more than 80 institutes and centers in Europe
In the current study was followed the effect of influence with Infrared thermal field (ITF) and electromagnetic fields (e.m. fields) of Christos Drossinakis over the experimental myeloid tumor of Graffi, implanted in hamsters
The data obtained probably indicates a positive bio-influence of Infrared Thermal Biofield (ITF) and electromagnetic fields (e.m. fields) on the erythrocyte (RBC-) membranes’ biochemistry, structure and functions (Komorowska, Czyzewska, 1997; Walski et al, 2015) and/or on the erythropoiesis in the Graffi myeloid tumour-bearing hamsters
Summary
The strong bio-influence of Drossinakis has been proved via the application of the methods biophotons (Popp), thermovision (Schlebusch), spectrum analysis of water (Antonov, Ignatov), color coronal spectral analysis (Ignatov), gas discharge visualization (Korotkov), synchronizing of brain electromagnetic waves (Li Gendinovich) etc. at more than 80 institutes and centers in Europe. The strong bio-influence of Drossinakis has been proved via the application of the methods biophotons (Popp), thermovision (Schlebusch), spectrum analysis of water (Antonov, Ignatov), color coronal spectral analysis (Ignatov), gas discharge visualization (Korotkov), synchronizing of brain electromagnetic waves (Li Gendinovich) etc. Drossinakis has achieved the following results according the norm – biophoton emission (Popp) ( 900 biophotons 1 cm2/ 1s), (norm 85 photones, 1 cm2/1s); increasing of the temperature after bioinfluence (Schlebusch) (1.6-1.8 °С) (norm 0.1°С); average energy of hydrogen bonds among water molecules according control sample (Antonov, Ignatov) (±8.2 meV) (±1.1 meV) etc. In the current study was followed the effect of influence with Infrared thermal field (ITF) and electromagnetic fields (e.m. fields) of Christos Drossinakis over the experimental myeloid tumor of Graffi, implanted in hamsters. Purpose of the research: To establish the therapeutic effect of infrared thermal field and e.m. fields in hamsters www.iiste.org with experimental tumor
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
