Defused Cell Charge of the Organ Can Impact The Function of the Organ

The charge of cells within an organ can impact its function. In fact, the electrical charges of cells and tissues in the body play an important role in many biological processes, such as muscle contraction, nerve signalling, and the regulation of ion and fluid balance.

For example, in the heart, the coordinated contraction of cardiac muscle cells is driven by electrical signals that are generated by specialized cells called pacemaker cells. These signals are transmitted through the heart's electrical conduction system, causing the heart to beat in a coordinated manner.
Any disruption to the normal electrical activity of the heart can lead to arrhythmias or other cardiac conditions.

Similarly, in the nervous system, the transmission of signals between neurons is dependent on the movement of charged ions across the cell membranes. Changes in the electrical charge of neurons can affect their ability to transmit signals, leading to neurological conditions such as epilepsy. The charge of cells within organs can also impact the movement of fluids and ions in and out of cells, which can affect the overall function of the organ. For example, the charge of cells in the kidneys plays an important role in the filtration and reabsorption of fluids and ions, which helps regulate the balance of electrolytes and water in the body.

Overall, the electrical charges of cells within an organ can have a significant impact on its function, and disruptions to these charges can lead to various biological and physiological disorders.

eMedica
Improve the cell charge of the organ with specific frequencies and Specific Voltages, Correcting the electrical Parameters of the Human Body ( Science Validated by Ethical Papers and Clinical Reports https://lnkd.in/dCVrUhUy )