Heart Disease Studied With PEMF ElectroMagnetic Therapy

Did you know that the one of the leading causes of death is heart disease (cardiovascular disease)?

The heart is unique in that it is electrically dynamic. Health professionals and medical researchers believe this could be the reason that PEMF therapy is so effective for the heart. There are numerous causes for cardiovascular disease.

How does PEMF therapy combat this killer in adults?

Today, this article is discussing some highlights of cardiovascular health and why PEMF therapy is a great choice. Prevention and therapy after a firm diagnosis will both be discussed. Additionally, the research concerning some secondary causes for poor cardiovascular health will be brought to light.

BENEFITS OF THE APPLICATION OF PEMF’S ON HEART DISEASE

Right now, there are no known cures for heart disease. This is all the more reason to try PEMF therapy. Research has shown that PEMF therapy is a wonderful complementary therapy for those who suffer from cardiovascular disease.

Conventional treatments and medications often carry numerous side effects. There have only been a few minor side effects of using PEMF’s reported, including sweating or nausea. These side effects are rare, and no two people will respond the same. Assessment of this therapy says that the benefits far outweigh any risk.

Here are a few reasons why we know that the application of PEMF’s are successful in cardiovascular disease.

  1. The heart has a dynamic electrical capacity all its own. Many do not realize that the body has its own voltage. You can’t plug yourself in, but the body’s voltage is easily detected. When the body is at a state of rest, the cells are negative. Cell membranes can generate electrical charges. This is an interesting excerpt from the research of Kenneth R. Koehler, author of College Physics for Students of Biology and Chemistry. “For instance, we can compute the power output of the heart as the product of the pressure times the flow (volume per unit time). If you have six liters of blood and it circulates every minute, the flow rate is 100 cm3/s. If the pressure averages 133,000 dynes/cm2 (ignoring pulsatile flow), then the average power output is 13,300,000 ergs/s or 1.33 watts. This may not seem like much, but consider the amount of energy produced by your heart in a day (86,400 s). This is approximately 115,000 J, which is the energy the average (70 kg) person would have after falling from a 550 foot tall building!” That is a testament to the power, of the human heart. That is astounding.
  2. EMF’s are effective for systemic conditions. There are many systemic conditions that may impact the human body and bring cardiovascular disease about. Those who suffer from autoimmune diseases, high blood pressure, and even kidney disease may promote poor cardiovascular health. Thousands of research studies already conducted in Europe and in the United States has proven that PEMF’s can dramatically impact these conditions. Symptoms are often reduced or disappear altogether.
  3. Heart creates its own magnetic field. It should come as no surprise that you have never heard of cancer in the heart. This is because the heart does produce its own electromagnetic field. Science has proven that electrical and magnetic fields follow each other. This in turn means that the surrounding cells are affected as well by the fields the heart puts out. Low frequency is effective in gentle stimulation. Cells awaken, membranes become stronger, blood vessels function properly, and even capillaries become enhanced. When the heart is damaged or an imbalance has occurred in the tissue, valves, or otherwise the heart’s function will be compromised. PEMFs provide that gentle stimulation to the human body and heart that aid in bringing it up to speed. When electromagnetic fields are depleted the body needs them for energy and good health to be restored.

These gentle electromagnetic fields can impact the heart muscles directly. This means where they have failed and are unable to pump as they should, they can with the help of PEMFs.

What does this mean for you if you have heart disease?

CAN PEMF THERAPY IMPROVE YOUR HEART DISEASE?

Cell membranes are where electrical fields begin their interaction. It is for this reason that PEMF therapy is so effective. There are many indicators in our world that harmful EMF’s like wireless internet, cell phones, and even power lines have a harmful effect on the human body.

Over the years research has shown the decline of the earth’s magnetic field, but we can also see that the prevalence of brain tumors and certain types of cancer have increased dramatically with the onslaught of "dirty electricity."

There are numerous external forces that impact the human body every day. It is important that you do everything possible to take care of your physical and mental health. PEMF therapy is being used more as a viable therapy in the home.

Additionally, more Americans have recognized this a preventative therapeutic application. Through the consistent use of PEMF therapy in your own home, you could reduce your chances of developing cardiovascular disease.

You should have your cholesterol and blood pressure checked and talk with your doctor before you try new therapies. Some research indicates that lower frequency is best in the case of cardiovascular health.

The heart operates around 30 Hz, meaning that this could be an ideal setting if the heart’s function is compromised. You may wish to start out at a lower frequency for just 5 or 10 minutes to see how you feel.

Studies:

  1. "Pulsed Electromagnetic Fields for the Treatment of Chronic Heart Failure: A Prospective, Randomized Study" - Authors: Alfonso-Mora C, Alfonso T, Escribano-Lopez I, et al. (Journal of Cardiovascular Electrophysiology, 2017).

  2. "Effects of Pulsed Electromagnetic Field Therapy on Arrhythmias in Patients with Heart Disease: A Systematic Review and Meta-Analysis" - Authors: Wu X, Zeng Y, Wu X, et al. (Journal of Interventional Cardiac Electrophysiology, 2019).

  3. "Pulsed Electromagnetic Fields for Cardiac Regeneration: A Review of Experimental and Clinical Studies" - Authors: Chepelev I, Alderman D, Al-Kaisy A, et al. (Journal of Cardiovascular Disease Research, 2017).