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Proionic effect
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The proionic-care effect , consists in the interaction with biological tissues rebalancing their activity by acute mobilization of the ions. This mobilization is obtained with high technology devices that provide high frequency current at 448 kHz combining Capacitive and Resistive modes. This stimulation maintains the physiology of the living tissue and improves the cells metabolism The biological effects of proionic-care are: . * Balancing the cell`s electric potential * Improving membrane’s permeability * Repairing the cells * Lipolysis * Activation of neocollagenesis * Arteriolar vasodilation * Improving venous flow and decreasing liquid retention * Eliminating waste and toxins Proionic-care is a non-invasive care that respects the physiology of the tissue. Biological ions role The importance of the ions and electrical balance in living elements is huge and one of the most important phenomenon in the biological field. For many years it was considered that, in the human body, electric events only occurred on excitable tissues: muscles and nerves. Nevertheless, during the 80’s Becker changed this concept when he stated that vital processes are controlled by electromagnetic fields. The concentration of the ions in each side of the cell membrane is different, this creates a voltage that is essential for life. On usual conditions the membrane’s electric potential of an average cell is of -70 mV. Pathologic or aged cells have a disrupt membrane potential. For example it is decreased during an inflammation process and increased in some tumour cells. Proionic-care effects: The proionic-care combines three simple core effects: proionic action, microcirculation effect, and hyperthermia. The proionic action is obtained with non-thermal application on the tissues. The action is targeted on extracellular matrix and cells. The exchange of ions in the extra cellular matrix and through the cell membrane eases the function of the tissue. The microcirculation effect is the proionic action plus the increment of the microcirculation of the tissues after increasing the power of the device. The subject feels comfortable temperature in his body. The tissular and cellular oxygenation are improved as well as the blood flow and the drainage to eliminate waste and toxins and oedema reduction. The third effect, hyperthermia, hyper activates the tissue by simulating fever in the body. The subject feels hot temperature but it’s bearable. The hyperthermia is added to both proionic and microcirculation effect. The temperature of the tissue never exceeds the physiological limit that is around 45°C. This action allows a dramatic increase of the metabolism and gives a threshold stimulation to set off the autogenous mechanism of recovery. See Also
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