III. Research into the corrective effects on the biological disruptions
through exposure to therapeutic or compensatory EM fields.
III.1. Non-thermal electromagnetic therapies
We can already understand the electromagnetic sensitivity at very weak intensity of a living organism through the established therapeutic efficacy of exposure to sub-thermal electromagnetic fields of various kinds under clinically controlled conditions, such as in connection with accelerating the healing of bone fractures, for example, or by increasing the efficacy of ionising radiation so that smaller doses can be used.
Perhaps even more remarkable is microwave resonance therapy, which can restore homeostasis in a wide range of pathologies by utilising ultra-low intensity radiation of a specific frequency.
In cardiology, an example of the therapeutic use of sequences of microwave radiation (of 42 GHz at 10 microwatts per cm² ) leads to a reduction in arterial tension and a slowdown in a person’s heartbeat, in addition to a sedative effect (N. Lebedeva). In general, Russian hospitals use frequencies from 30GHz to 300 GHz at extremely low intensities, of just a few microwatts.
(5) See biblio ref. 5. “Therapeutics”
III. 2. History of the principle of electromagnetic bioprotection : CMO (Compensatory Magnetic Oscillation)
Following to the research approach of electromagnetic therapies, whose application encourages the repair of (bone) tissue, the arrest of destruction processes or of anarchic multiplication, regulates the dysfunctioning of cells, some biophysicists have sought to produce effects of biological protection against external pollutant fields, using other fields which encourage biological equilibrium.
Developed along the lines of the Russian school, which is highly advanced in the domain of electromagnetic Biophysics, and the work of several Europeans, such as C. Smith, F-A Popp or J. Benveniste, has come the research and discoveries of Tecnolab. Tecnolab has developed and validated a principle of biological protection through ultra-weak compensating emissions, produced by electromagnetically treated saline solutions, leading to the creation of Compensatory Magnetic Oscillators (CMO).
At about the same time in 1995, E. Fesenko demonstrated (confirming the work of Kislovsky in 1971) that saline solutions that had been EM treated “remembered” their EM treatment and therefore had modified the long-term functioning of Potassium membrane channels.
In 1995, V. Lobishev, followed by V. Novikov in 1999, showed that the luminescence of aqueous solutions that contained impurities or various proteins, after an EM treatment (using weak fields) could modify their physical and biological characteristics for several months…
In 1999, A. Goldworthy demonstrated the removal of structural calcium from the membrane surface of cells in the presence of EM treated water.
In fact, the biological effects of electromagnetically treated aqueous solutions have been studied by different scientists for over thirty years. Whilst biophysicists had been able to observe that aqueous solutions – which make up the basic essentials of living organisms – might be modified by an irradiation, more recently they learnt and noted that the water contained in living organisms was disturbed by the exposure to an increasingly dense artificial electromagnetic environment.
Following this line of research, Tecnolab’s team, directed by Maurice Fillion-Robin, took on a major challenge: attempting to determine a specific and expected biological effect that offsets the biological effects of disturbing emissions coming from the most ubiquitous radiating devices in daily use, through the specific electromagnetic treatment of saline solutions.
The quantum mechanics established that a large number of different ions (Ca++, K+, Na+, Mg++ etc.), which are usually linked to proteins, may be unexpectedly freed by the presence of ultra-weak fields. These environmental fields act on the phase and the form of the wave function of the ion concerned and promote its release from the protein to which it should normally remain linked, so causing biological disorders that generate electromagnetic stress and associated symptoms.
In theory, this phenomenon may be counterbalanced by a compensatory electromagnetic oscillation, which aims to maintain the phase and the initial form of the ionic cloud concerned: Tecnolab’s scientific team developed CMO (Compensatory Magnetic Oscillation) which enabled this result to be obtained.
A new biophysical approach to study the interactions of non-ionizing radiation with matter has given prominence to the importance of the biological response of a living organism under electromagnetic exposure, as opposed to the reaction of inert matter.
In fact, the biological response is adapted and specific to each organism, while the reaction of inert matter is foreseeable and systematic.
The adaptive nature of the biological response of a living organism exposed to electromagnetic signals can be explained :
- at a physical level, by the complexity of physical interactions between natural and artificial (man-made) electromagnetic fields surrounding living organisms ; such as complexity being inherent in the specific features of the interfering fields (frequency, amplitude, form, phase, est.)
- at a biological level by the multitude of potential action mechanisms (VN.Binhi) likely to account for interactions between exogenous fields (natural and artificial) and endogenous ones generated by target organisms.
The various models of biomagnetic reception (V.Binhi) allow investigation of fine mechanisms underlying the global biological response clearly shown by in vivo tests.
Tecnolab has applied such an experimental process :
- to show clearly the induction of electromagnetic stress by non-ionizing radiation from commonly used devices and installations;
- to design a technology, whose compensation oscillation makes radiating devices bio-compatible.
In order to assess the protective effectiveness of these different oscillators, specifically tuned to each type of stressing radiation from electronic devices, several studies were performed in animals (embryology, immunology, endocrinology, cell biology) and in humans (clinics, psychophysiology, neuropsychology, ophtalmology) in different universities.
In order to design a bio-protection for man in an electromagnetic field that passes through him, producing within him several changes, the research team began by looking for an electromagnetic re-balancing for man, through a compensating emission when his own electromagnetic functioning is subject to the stress of the artificial radiation that surrounds him.
The scientific group Tecnolab gave priority to the links between ultra-weak external or exogenous fields and their subtle resonance effects with ultra-weak internal or endogenous fields of living organisms.
The studies of each one of the parameters - whether hormonal, of immunity, neuroendocrinal., micro-cellular, embryonic, genetic, of blood, ophthalmological and clinical, as mentioned earlier (calcium, corticosterone, ACTH, melatonin, immunoglobulin G, nitric oxide, cortisol, monocytes, DNA) - were carried out at the same time as the development of the protection technology through compensatory emission, which was aimed to correct the biological effects by its oscillation “superimposed” or “simultaneous” to the polluting fields.
The application of this principle of bioprotection, by an oscillation of ultra-weak intensity, specifically used to compensate ionic interferences induced by EM fields from each type of radiating apparatus, took place in all the experimental protocols that have been cited above :Out of all the biological parameters that have been studied, the evaluation of the efficiency of the compensatory oscillation was completed by comparing the results between : the exposed-group, that was only exposed to the radiating /polluting device, with the results of the protected-group that was exposed to both the radiating/polluting device and simultaneously to the compensatory oscillator, with a placebo group and with the control-not exposed group. This control group was the reference to assess the biological and health equilibrium, as well as the criterion of biocompatibility.
On all biological parameters that were studied, results showed a very significant improvement, i.e. an advanced level of biological protection, a return to normality. And for many of them a total correction of the biological disruption: in these cases, results were identical for the non-exposed group and the exposed group plus the compensatory oscillator.
CMO means Compensatory Magnetic Oscillation, a principle of Tecno AO passive devices – AO, meaning “automomous oscillator”, because they have no external energy source. The different oscillators are developments of CMO, whose principle is based on the transfer of information via ultra-weak fields entering in resonance with the ultra-sensitive receptors of living organisms.
These devices are specific to each of the apparatus that are used the most by the public (such as the mobile phone, VDUs, portable computers, relay masts): their ultra-weak magnetic signals are tuned with the frequencies of polluting radiation. These oscillators are autonomous and comprised of a saline solution that is structured by an electromagnetic charge, so being activated and oscillating. The solution is contained in an aluminium antenna (international patents). This non-ionising and non-toxic oscillator produces a magnetic induction of ultra-weak intensity, which may be measured like magnetic inductions of biological origin, in femtoTesla by SQUID (Superconducting Quantum Interference Device).
The compensatory emission is designed to maintain the links between ions and proteins in cells that have been disturbed and therefore protect the natural electromagnetic functioning of cells up to organs such as the brain or eye.
Biological experiments carried out by Professor Madeleine Bastide at the University of Monpellier since 1993 have demonstrated that the oscillators maintain their information over time. Indeed, the results for protection shown by biological response (embryogenesis, immunology, endo-crinology) were the same after two years of using the oscillators.
(2)(3)(4)(5)(6) See biblio. ref.
