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How PEMF Therapy Promotes Bone Tissue Regeneration

How PEMF Therapy Promotes Bone Tissue Regeneration

Thousands of research studies have shown that PEMF therapy promotes bone tissue regeneration.

This is great news for those who have suffered from fractures or other bone maladies.

Compound fractures, hairline fractures, and those fractures that are not healing properly have been shown to respond to PEMF therapy in numerous independent studies.

The FDA approved the use of PEMF therapy for the healing of nonunion fractures in 1979.

The efficacy of this therapy has been proven many times over for various diseases and conditions.

This article will give you a more in-depth look at how PEMF therapy impacts bone tissue regeneration in relation to connective tissue disease, as well as conditions that cause broken bones on a frequent basis.

Why Bone Tissue Regeneration is a Viable Reason to Use PEMF Therapy

Broken bones and diseases or conditions that cause broken bones are challenging to both the medical community and the holistic community.

Traditionally, surgeons have turned to bone grafting as the easiest way to repair another bone.

While an individual may have normal bones, the amount of bone needed to repair can be difficult to gauge.

Doctors began researching other sources that could potentially replace a surface like bone to ensure that the mass they needed was present.

Additionally, the only sources outside of synthetic materials are under the ocean.

Theoretically, those materials would appear easy to harvest, but the time and expense to do so can impede the progress of a surgical procedure.

Is there another option for the regeneration of bone tissue?

Independent studies have shown that PEMF therapy could be the answer that doctors have been looking for.

Numerous scientific research studies have shown that the regrowth of articular cartilage is possible.

This does give hope to those who suffer from degenerative diseases that affect bone strength and their regrowth after fractures or loss of bone density.

An area of medicine known as biomimedics has called upon the harvesting of marine sponge and coral to aid in the replacement of bone mass when there is a lack of sufficient bone mass to repair the damaged bone.

PEMF therapy is revolutionary in that it not only promotes bone tissue regeneration, but it can be used in the comfort of one’s own home.

It is also true that research has shown that bone regeneration can occur where there is nonunion bone.

Here are two key points to remember about how PEMFs impact the bone itself and tissues involved.

  1. PEMFs over time promote bone growth.
  2. PEMFs shorten the time by which this occurs.

Because the FDA approved this therapy for this very purpose in 1979, it seems strange that it is not a regular part of any rehabilitation program or sports medicine practice (that we are aware of).

Conventional methods often offer physical therapy first, then surgery as the last alternative.

It is important to learn more about how bone tissue regeneration occurs in order to understand WHY PEMF therapy should be the first option.

As research continues using PEMF therapy for this purpose, it is important to note that failure could only be implied if a device is faulty, or if the protocol isn’t being followed as stated in prior research.

Following research that has been successful with PEMFs is the first course of action.

Duplicating the protocol and achieving success is ideal, and thus reaffirms that it is effective in this capacity.

The following has been confirmed through research, showing that PEMFs are effective for regrowth of bone tissue.

  1. PEMFs stimulate cells. All inflammation starts at the cellular level, and can lead to further damage to neurons, nerves, tissues, capillaries, and blood vessels. Where there is a breakdown at the cellular level, eventually the inflammation can lead to a weakening of the bone marrow. PEMF therapy permeates bone marrow, and thus it is able to repair damaged cells, and help create more new healthy cells. As the cells heal, the neurons, nerves, tissues, capillaries and blood vessel heal and oxygenate the tissue. Thus the bone marrow becomes healthier and stable.
  2. The plasma membrane absorbs PEMFs. Plasma is a part of your blood, and it carries enzymes into the blood. When plasma responds to a healthy environment, it feeds your blood superior nutrients. This means that with sufficient nutrients and healthy enzymes, growth and strength are supported to feed the surrounding tissues, bone marrow, and ultimately aid in the regeneration of healthy tissue.

These are two main considerations as it relates to the regrowth of the tissue in your bones.

Plasma picks up the signals from EMFs, so the focus should be on healthy EMFs.

Dirty electricity like wireless internet, cellular phones, and radiation would impact your bone marrow negatively.

An earth-based PEMF device, that replicates the earth’s electromagnetic fields can bring your body back into balance.

How can you get it?

Accessing PEMF Therapy for Bone Tissue Regeneration

As you age the likelihood that you’ll develop osteoporosis goes up.

Your bones may weaken, causing fractures to occur easily.

Many aging adults experience broken hips.

This is a great example of how bones break prior to an individual falling. The bones have become weak and brittle, causing them to break down or fracture altogether.

Young adults may suffer from a congenital disease known as osteopetrosis imperfecta, or “brittle-bone disease”.

This disease causes bones to be so brittle, that a child could bump into a wall and experience a fracture.

Although this disease is quite rare, it could be a hot target for PEMF therapy

. The objective is to learn more about whether or not PEMFs can strengthen the bones over time to prevent these types of fractures.

Until that time comes, there is a light at the end of the tunnel for those who suffer from fractures of any kind.

If you would like to learn more about how PEMF therapy may impact bones, joints, muscles and bone tissue regeneration, please visit today.

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