QRS effect on the Cells

We are only as healthy as our cells.

The electromagnetic fields generated by the QRS have a positive influence on any process in the body. By displacing ions, pulsating magnetic fields can lead to normalization of the membrane potential and enhance health and healing.

Effects of using QRS:

1. Blood circulation is effected and normalized.

Loaded particles in the bloodstream will oscillate in the rhythm of the QRS’ frequency. This can reduce friction and flow resistance in narrow capillaries. Perfusion (blood circulation) increases, and at the same time, the diffusion rate for oxygen and carbon dioxide increases.

2. Oxygen partial pressure increases.

All studies demonstrated a dramatic increase in the oxygen content of the blood, up to 80%.

3. Cell membrane potential is normalized.

General exhaustion of the body, caused by stress or chronic disease, will reduce the cell’s membrane potential (usually between 70 to 90 mV). If this potential approaches the zero level, the cell dies. A cell uses 50% of its energy to maintain this potential. The QRS system, with its patented ion transport technology enables the selective movement of protons (H+ ions), which will then be retargeted at the cell membrane. In this way, the membrane will be hyperpolarized and the membrane potential normalized.

4. Calcium influx enters the cell.

Through increased concentration of H+ ions in the membrane area, pH value is reduced near the membrane. This leads to the release of calcium from the protein layer of the cell membrane. Unbound calcium flows into the cell core and triggers numerous metabolic reactions. Macrophages (tissue cells functioning as protection against infections) are activated and therefore the immune system is strengthened. Metabolism is activated and nitric oxide, a potent vessel enlarger, is produced. In addition, cytogenesis (structure, function, and multiplication of the cells) is stimulated.

These four results constitute the basic effect of pulsating magnetic fields. Oxygen, the elixir of life, without which we could not exist, is increased in the blood and also transported faster and more easily to the consumers, our cells. Cells are stabilized through regenerated membrane potential and activated through the calcium influx. Activation and strengthening of the cells and increased oxygen supports the body in its fight against disease.

Dark Field Microscopy Analysis on live blood before and after a treatment with the QRS.

Proof of Cellular Action

Max Planck Institute

Very weak fields could cause cellular actions.

Scientific tests were done by independent laboratories in Europe, notably the Max Planck Institute in Germany, to establish proof that very weak fields, such as those generated by the QRS, could cause cellular actions. One study was on the ability of these electro-motive forces to affect the flows of selected ions in and out of cells. The other was to asses the effects on the electrophoretic mobility of ions. To do this the QRS was tested on fowls. The birds received a full body application of a micto-Tesla field for two weeks, two hours a day. They had their potassium and calcium levels measured using a Perkins-Elmer absorpiometer, before and after treatment. Some birds were treated and some served as controls. There was a 6% positive movement difference for sodium, 25% negative difference for potassium and 10% positive difference for the movement or change of calcium. These magnitudes of effect are considered to be scientifically significant.

Measurement of the electrophoretic mobility of sodium, potassium and calcium ions and red cells were also tested. This test shows if there is change in ion flows above the level of thermal noise. The experiments were done to establish to the physics community that there is enough electromagnetic force produced by these micro-Tesla fields to be able to move ions in-vitro in buffer beyond the levels seen with thermal change.

These actions had to be established to have a credible basis to claim that the ionic changes produced by these electromotive forces were strong enough to induce cellular change and move red blood cells. Their conclusion was that the QRS device produces enough electrical change and in the buffer to be greater than thermal noise. Once it is established for a given device that it induces electromotive change in ion movement in the body, then you can accept that the fields of the QRS would produce other basic biologic cellular effects seen with other kinds of pulsed magnetic fields.


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