PEMF HEALING & NASA
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PEMF Treatment
ONE PART OF THE NESS TECHNOLOGY
"It is said to influence cellular behavior by inducing electrical changes around and within cells. PEMF seems to improve blood supply and cause an increase in oxygen pressure, activating and regenerating cells."
"Testimonies of dramatic decreases in acute and chronic pain have been attributed to the results of PEMF" - mentioned in Journal - Clinics in Podiatric Medicine and Surgery.
What NASA says about PEMF
Innovators at NASA Johnson Space Center researching time-variance magnetic field (TVMF) therapies have developed a pulsed electromagnetic field (PEMF) device that can alleviate cartilage degradation in synovial joints by promoting the growth of new cartilage. Joint disorders, whether induced by rheumatism, joint dysplasia, trauma, or surgery, often degrade cartilage and result in intense patient pain.
Pulsed electromagnetic field device can restore cell life.
Noninvasive and painless regeneration of a patients own tissue offers fewer side-effects than surgical joint replacement or tissue engineering procedures.
The PEMF device could simply be wrapped around synovial joints where cartilage-degrading inflammation is located.
Benefits Non-invasive: PEMF therapy requires no surgery or invasive procedure.
Regenerative: PEMF therapy relies on upregulation of genetic factors to promote growth and restoration of compromised cartilage. PEMF therapeutic devices have been approved by the FDA for use in the stimulation of bone regrowth in artificial joint disunion.
Applications Medicine: treatment of cartilage degenerative joint disorders in patients resulting from rheumatism, trauma, or surgery.
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Gut Health
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Ulcers
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Spine
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Joints
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Foot and ankle
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Neck
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Much more
Enhanced Recovery
PEMF therapy can potentially expedite the body’s natural healing process and help repair tissue by promoting blood flow. PEMF therapy is often used after high-level operations like cesarian section births or knee surgery to help with post-surgical recovery.
NASA conducted a 4-year long thorough research study: which found PEMF to be more effective than static magnets, lasers, LEDs and other regular forms of signals, traditionally used for repairing damaged tissues.
As part of this NASA extensive study, more than 35,000 experiments had been conducted. Of which, 2,500 were placebo-controlled experiments.
A significant number of double-blind studies were conducted too. The majority of these tests came positive in terms of the effectiveness of PEMF for wellbeing and human health using low intensity and low frequency pulsed electromagnetic fields.
