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.