After T. Graham discovered a new state of a material in 1861: the
colloidal state, an intermediary between the mineraI and
organic, allowing cells to keep their properties in a common medium, optical, physical and chemical refinement allowed the observation to be made that the entire human body, except for the integument, consists ofinfinitely small particles which were constantly moving and electrically charged, maintained in suspension, and aIl forming the "colloidal state". The essential characteristics ofthis "colloidal state" is that the perpetuaI movement ofthese unicellular particles (an agglomerate of similar
molecules of 0.001 to 0.3 lm, called micelles). The agitation was due to
electrical charges which these particles carried and to the action of the terestial magnetic field (W. Krauss, 1979) and to movements of cellular centrioles (M. Bomens ). If these electrified micelles lost their electrical charge, they stopped moving and precipitated. Similarly, iftheir movement was slowed down or stopped, the micelles lost their electric charge and precipitated (obvious crystallisation of a blood drop, R. Steiner). As a result of aIl this, it is essential to constantly maintain this dual physical factor: movements-charge and charge-movements of micelles, defines the permanent biological colloidal state and any damage to one or other of these factors causes them to precipitate. Any biological material taken from a clinically and biologically healthy body is a in a preserved colloidal state, and vice versa. The colloidal state corresponds to a precise movement of eletronic charge within the living material, both in terms of the ions emitted and those which are received. The quality of the intra- and extracellular water (which makes shorter or longer hydrostatic bonds: monomers, dimers, tri mers etc. up to 7 molecules may be bound together, studies by Damadian), both increases and amplifies the quality of the electrical signal. This results in one major law: aIl colloidal systems are not living but allliving systems are colloidal; electronic charges give the structure to the material, failing which the material is reduced to the state of its constit:utent materials.