Have you heard of PEMF treatment in the past? What stood out for you the most? Perhaps it was the magnetic therapy, or maybe it was the evidence-based medical research that caught your eye. Whatever it might be, there is a lot of information to take in and a lot for you to learn about this healthcare solution. We have created this article as a way to educate our audience on PEMF therapy and provide you with research-backed information.
WHAT IS PEMF THERAPY?
“We can consider PEMF a battery charger of our cells,” says the Pulse Center website.
“Healthy cell voltage is between -20 to -25 millivolts. If the voltage drops below -15 millivolt or less, we start getting sick. When the voltage of our cells drops below this level, they are unable to recover. PEMF therapy slows or prevents the discharge of pain and inflammatory mediators improves blood flow of the cells and restores normal cell interactions by inducing a mild electromagnetic current into damaged cells. Pain decline, energy increases and the tissue healing happens quickly with decreased inflammation.”
PEMF is not designed to treat a certain condition; however, it is more intended to optimize the body’s natural self-healing and self-regulation functions. More than 2,000 medical studies assess the effect of PEMF on the body — including arthritis, tissue repair, circulatory system, skin to heal, and pain.
They also say: “A good cellular health is one of the greatest barriers to a person’s cure! You are just as healthy as your cells.”
Stress and emotional health management
The root cause of many biological issues is largely excessive stress. It has been shown that PEMF affects brain function and contributes to the recovery of severe strain cells.
Sleep and relaxation
When your cells aren’t struggling to operate, your sleep quality and consistency can improve over time.
The body’s repair process necessitates the expenditure of resources. PEMF was shown to provide the body with the energy required to drive, heal, and rebuild itself.
Focus and Brain Function
PEMF has been shown to help with brain activity, concentration, and synaptic response.
PEMF helps the immune system by stimulating white blood cells, which helps the body fight pathogens and foreign invaders. PEMF has been shown to improve bone density and joint function in people with osteoporosis. Metabolism and Energy Levels You should feel stronger with more energy to work and experience enhanced function in several ways when your cells have the optimum amount of energy.
PEMF THERAPY FOR MALIGNANCY
PEMF therapy has been shown to have antineoplastic and antiangiogenic effects in vitro. PEMF therapy has many pathways that have been discovered. PEMFs, for example, suppress cancer growth by interfering with spindle tubulin arrangement and inducing dielectrophoresis. PEMF therapy also affects gene expression and protein synthesis by interfering with Genetic material in gene promoter regions. Also, in vivo studies have shown that PEMFs inhibit angiogenesis in tumor tissues, suppressing tumor vascularization and reducing tumor development.
The basic argument, which is confirmed by the described in vivo studies, is that all treated groups had a slower tumor growth rate when compared to the untreated control group, confirming that PEMF therapy can modulate cancer cell physiology electrochemistry as well as influence cell membrane systems and mitosis. PEMFs also affect membrane transport capability by influencing osmotic potential and ionic valves, resulting in decreased cellular stress factors, an increase in DNA transcription rate, and immune response modulation.
In conclusion, PEMF therapy has been used for cancer treatment in clinical studies. These studies have shown that PEMF therapist by PEMF mat is secured and promising in comparison with other cancer medications available. In addition to primary therapy, PEMFs could be used in the future in combination with other familiar antineoplastic therapies. With the emerging availability of new portable and affordable PEMF devices, PEMF therapy’s potential is expected to continue in future controlled clinical studies in oncology.