How does PEMF reduce inflammation

One of the amazing advantages of PEMF treatment for inflammation reduction is that it works to decrease inflammation on multiple fronts. PEMF therapy with a heated pillow encourages an improved immune response, lowers inflammation directly, can better your mood and cure depression, stimulates the body’s natural healing processes, and stimulates overall wellness.

WHAT IS INFLAMMATION?

Inflammation is a cascade of physiological processes promoted by the body to restore cellular problems in tissues with good blood supply and to repair the tissue to its standard function.

WHAT CAUSES INFLAMMATION IN THE BODY?

The different cell types and metabolic paths that create inflammation provide multiple targets for therapies directed at controlling inflammation in the serious phase and in stopping progression to chronic inflammation. Inflammation can be opened up for many reasons, and realizing and understanding the nature of the cause is important in designing therapeutic approaches

How does PEMF reduce inflammation?

Inflammation is a body’s natural reaction in self-defense. Our white blood cells save us from infection, such as viruses and bacteria. Even though, the immune system may also induce an inflammatory response when bacteria and viruses are not present. This is called an autoimmune response. There are several autoimmune disorders, in which the immune system damages itself. No matter what the cause of your inflammation, one of the top health advantages of High-Intensity Therapeutic PEMF is its ability to re-stimulate damaged cells and reduce inflammation. PEMF works on a cellular level to motivate the body to heal itself.
One of the most well-known uses of PEMFs is to decrease chronic inflammation. Inflammation is at the base or a leading part of a large percentage of health problems in humans and animals. PEMFs have been introduced to help with a variety of other health issues as well: sleep problems, infection, pain, bone stimulation, cancer, lungs, heart, liver, and nervous system, among lots of other tissues.
T cells are a significant regulator of the inflammatory cascade. Studies have shown that PEMFs can cause the appropriate death of T lymphocytes, by actions on T cell membranes and key enzymes in cells. For example, PEMFs have been discovered to affect movement by specific cell membrane channels, including those for sodium, potassium, and calcium, that favorably affect these enzymes. These optimal effects help with lowering chronic inflammation.
Healthy cells are not normally affected by magnetic fields. Compromised cells, called meta-stable cells, are more likely to be affected. This means that PEMFs have more impact in conditions where there is unbalance in tissues or cells, i.e. where there is chronic inflammation. Where homeostasis in the body is powerful, PEMFs, especially weaker PEMFs, are unlikely to have impacts. For example, stimulation of the T cell receptor, such as occurs with PEMFs, also stimulates a variety of processes in the cell that within five minutes after removing the activating signal, these activated processes come back to normal levels.
PEMF therapy especially targets cells that are meta-stable as a result of disease or other continuous therapies. Thus, PEMFs can be a significant cellular therapy in many diseases, such as cancer, psoriasis, wound healing, and bacterial infections because of their impacts on lowering chronic inflammation. Normal homeostatically stable cells mustn’t be damaged by PEMFs, allowing other treatments to be more good without relative increases in side effects.
PEMF treatment has a neuroprotective effect that stops cell death, this was some amazing implications on clinical results of many chronic conditions as well as surgery. The neuroprotective impact also makes it perfect to utilize both before and after surgeries to lower inflammation.