Possible Ways Of Influencing Bioenergy Capacity And Chronobiological Processes

The mechanism of control is a specifically organized form of matter motion that consists in calculated information transformation with a particular purpose. Classic open systems largely characterize the interaction of energy and an amount of information. However, in living systems there is no exchange between energy and information nor are there direct information flows from outside which could by themselves be of vital importance to life processes as they use free energy for their metabolism where entropy is not an independent variable. However, energy dissipation in a bioobject is closely related to external information influence.

 

As it has been mentioned before, non-linear processes are periodically recurrent variations of a certain kind and intensity in structures and systems of a bioobject in vital activity processes. A wide, evolution-dependent frequency characteristic range of varying processes of individual biostructures and a very narrow frequency characteristic range with functional systems of the human body in terms of information – wave continuum have the following objective reasons:

 

1) there is a multitude of structural units in the bioobject far fewer are there functional systems, however vital algorithms of the organism, both in normal conditions and in a pathology, are set by functional systems.

 

2) H. Frohlich and A.S. Davidov theories give an explanation of the fact that frequency characteristics of the affecting factor in the whole hierarchy do not need to be modulated by the rhythm of functioning biostructures. Also, of the primary excited state, caused by one influence or another, do biomolecules, which can be described as a string of nonlinearly linked oscillators, go out by emitting electromagnetic waves according to FermiPasta-Ulama mechanism of return. The characteristic feature of that kind of mechanism is that the energy of the initial disturbance of non-linearly linked oscillators is not distributed among all possible oscillating states of the string (thermolization process) but, on being distributed among individual higher oscillating harmonics, after a while returns to the distribution of oscillations similar to the initial disturbance. As the reradiation is performed by a complicated oscillating system – a biomolecule, it leads to the origination of special electromagnetic waves –solitons, peculiar wave packets having a complicated oscillating structure with a spectrum of combinational frequencies, of coherent radiation on account of fractal properties of biomolecules. Hence, an a level of individual biostructures, the resonance arises due to a soliton wave formed in the biomolecule reradiation of the initial effect in which the bioobject itself has set a combination of resonance frequencies required for the corresponding structures owing to Fermi-PastaUlama physical phenomenon of return. Any external physical factor affecting the bioobject in the first place causes a change in the electric status of biomolecules and cells in the area of influence owing to a pyroelectric, photoelectric and piezoelectric effects and the restructuring of domains of polarization. That is the main link in the trigger mechanism of all subsequent responses of the bioobject including the abovementioned processes.

 

Thus, it is possible to influence biological processes with different directivity by controlling the synthesis and disintegration of macroergs (ATP) owing to a change in the transmembrane potential; by influencing some specific functions of metabolism; by synchronizing or by imposing the corresponding oscillating process frequency on the bioobject functional systems to trigger the biological and behaviorial reactions ensuring the desired result.

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Common Regular Principles Of Purposive Selection Of Variables Of Information Influence Factors

Common Regular Principles Of Purposive Selection Of Variables Of Information Influence Factors

On this basis it is possible to formulate the principle of information action – the achievement of the desired result with an external information factor involved depends on the rhythm synchronization of the functioning factor and the corresponding functional system or on a lasting effect of a certain rhythm of the oscillating process imposed by the operative factor on one or another functional system of the human body with optimum energy variables of this factor.