Mechanism of Action of weak Direct Current
Micropolarization causes a selective changes in cell membranes level of polarization providing a new level of nervous tissue activity. This leads to removing of the parabiosis status of a nervous tissue, improves the reaction on input of endogenous impulse, activates pathway systems. This involves different upper - and underlying structures into a system effect. As a consequence we can see a reconstruction of neurodynamic and neurohumoral processes leading to optimization of CNS functional state and recieving positive clinical result.
At the acute brain damage micropolarization causes increasing of activity of neuronal structures. The changes of activity is caused at the place of influence that's shown in absence of brain edema development, reduce of the destruction locus, increase of brain structural blood flow. As well the changes of activity is caused in the further brain structures. That is shown in decrease of general brain disorders, decrease of the general neurological symptomatic, that proves the cerebroprotector effect of micropolarization.
At chronical organic brain disorders micropolarization leads to removing of parabiosis of nervous tissue, in different CNS structures diminishing pathological dominant locus, destabilization of stable pathological state, activation of antisystem mechanisms.
Micropolarization a physiologically adequate factor activating self-regulation mechanisms hereby forming new or actualizing already existed functional interconnection. At last leads to recovery of brain system interactions which provide brain dynamical homeostasis. So, the reabilitation of a central regulation of different human functions is a direct consequence of the dynamical homeostasis normalization.
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