It is necessary to take into account the possibility of pathological effects resulting from the chronicity of radiation exposure, the accumulation and interactions of different types of electromagnetic sources and finally from a saturation threshold for the human organism and its homeostatic equilibrium, due to the increasing number of emitters of EMF of different bio-active frequency ranges.

Particularly as the biological effects that were observed on all parameters confirmed the induction of a process of chronic biological stress, and that they indicate that a chronic exposure – even though it is at low intensity, i.e. without any thermal effect – is a factor of electromagnetic stress.

If the effects of this electromagnetic stress are removed or reduced, by any means, we may predict that this action will ipso facto eliminate the possibility or the existence of their deleterious effects and should prevent the promotion of predictable pathologies that could result from this stress.

The development of a protective strategy that aims to make sources of electromagnetic pollution biocompatible has been fully considered in the scope of the work completed by Tecnolab’s Research Centre over the past ten years. The Centre’s work has consisted of determining the biological incompatibility of certain non-ionising radiation in our daily environment, in addition to testing the protective effect of a compensatory emission of hyper-weak intensity that is specifically tuned to the ionic interferences induced by the stressing radiation of each of the emitting devices.

Normalised biological responses are the result of the restoration of electromagnetic biocompatibility between the radiating source and the living system.

Therefore, the results of bioprotection for all biological parameters of cellular and systemic stress studied with CMO*, produced by the emission of an ultra-weak compensatory field, show that this stress may be avoided at molecular and ionic levels.

These results were obtained during protocols of intense exposure by the installation on the radiating devices of compensatory autonomous oscillators (CMO) as developed by Tecnolab. These CMO have been tested in the different universities mentioned in this report and whose work has featured in peer-reviewed scientific publications.

The confirmation of the biological efficiency of this bioprotection technology at the level of the most crucial cell regulation (DNA), makes it possible for Manufacturers and Politicians to take decisions regarding the simple and rapid application of the precautionary principle.