PEMF–Natural Chronic Pain Relief


Author: Dr Ahmad Gulzar

What is PEMF?

Before we talk about natural chronic pain relief, you must understand what is PEMF therapy.

Imagine no drugs, no surgery, and no injections for your chronic pain relief.

PEMF therapy can make this possible. It is a natural chronic pain relief solution.

Pulsed Electromagnetic Field Therapy (PEMF) is a non-invasive and painless treatment for various diseases e.g., chronic musculoskeletal pain, postoperative pain, osteoarthritis, depression, multiple veterinary applications, and many other conditions.

How PEMF Works?

To understand the function of PEMF, let’s first develop a little understanding of electrical charge on our body cells and its role in healing and regeneration.

Every cell of our body has a specific charge inside and outside of the cell membrane. This distribution of charges plays a vital in the functionality of the cell.

Any disturbance in these charges can trigger a pathological response in the area comprising the comprising of these cells. This can manifest as pain, inflammation, and other diseased conditions.

PEMF creates a pulsed electromagnetic field around the body that restores the original and required distribution of charges, therefore, healing the tissue without any invasion.


One can imagine it as a cellular exercise that brings back the function to normal.

What Happens During a PEMF Session?

full size pemf mat for treating chronic pain

You just sit in a chair with a loop or lie on a mat and relax.

The armamentarium (apparatus) may differ a little depending upon the model of the PEMF machine and the targeted area.

The duration and intensity of the session may vary according to the pathological condition.

You may feel wave or tingling sensation in an energizing manner or you may not feel anything at all which is fine too.

One often needs multiple sessions over a while for increased and sustained results.

After a session is over, you may resume to daily routine immediately in a better mood.

Types of PEMF Machines 

Wearable PEMF Machine

pemf wearable device for chronic pain

A wearable PEMF Machine has a loop or ring one can wear on leg, neck, or arm. These are usually portable devices.

PEMF Mat

Mat Shaped Whole Body PEMF Machine comprises of a mat and a controller. A person can lie on it. It acts on the whole body and may be portable.

Professional PEMF Machines

pemf review - more powerful PEMF devices

Professional PEMF Machines are mainly for use by clinicians. These have multiple attachments, loops, mats, and bed.

These have multiple programs with various intensities for different conditions. They are often more powerful than the PEMF mats.

Chronic Pain Relief and Other Applications of PEMF 

Chronic Pain–Knee Osteoarthritis

PEMF therapy has proven to be effective in improved knee function.

A study conducted in 2013 and a sample size of 459 concluded that low frequency (≤100 Hz) pulsed sub sensory threshold electrical stimulation produced either through PEMF plays a vital role in physical improvement of knee osteoarthritis.1

Another study focused on elderly individuals, aged between 60 to 83 years, with a sample size of 33.

They found out that PEMF gives pain relief, reduction in stiffness and improved function in elderly patients just after 6 weeks of treatment.2

Chronic Pain–Musculoskeletal Pain

PEMF helps in the reduction of DOMS (Delayed Onset Muscle Soreness).

 DOMS is a pain that arises in muscle after a workout.

30 healthy male college students participated in this study. DOMS effect was checked at 24, 48, and 72 hours and it showed a marked reduction in intensity. 3 

Chronic Pain–Rheumatoid Arthritis

A study of 35 candidates suffering from rheumatoid polyarthritis showed a positive response toward PEMF therapy.

It resulted in pain relief, reduced inflammation and tenderness, and improved joint functionality. 4

Chronic Pain–Osteoarthritis

PEMF has shown promising results in suppression of inflammatory response in the case of osteoarthritis. PEMF is now becoming a treatment of choice for osteoarthritis. 5

Intense Pain–Non-Union Fractures

PEMF improves bone healing and repair through various steps. These are;

  • Initiate calcification on the fracture site
  • Increased blood flow
  • Decrease resorption of the bone 6, 7

In this way, it enhances bone fusion and provides pain relief. 

Chronic Pain–Osteoporosis

 This condition affects the quality of bone and makes it more susceptible to break and get much painful.

PEMF has shown beneficial results in an immediate bone deposition in postmenopausal women. This indicates that it can help in the improvement of osteoporosis.8

For more info on this, read this article https://pemf-guru.online/treatment-for-osteopenia-and-osteoporosis/

Chronic Pain–Pelvic Pain

Pain arising from pelvic disorders like;

  • Dysmenorrhoea
  • Endometriosis
  • Ruptured ovarian cyst 
  •  Acute lower urinary tract infection

All of the above have shown significant recovery from PEMF therapy. 9

Multiple Sclerosis

Stimulation with PEMF has shown enhanced bladder control, cognitive function, less fatigue level, improved hand function, mobility, sensation, spasticity, and vision in these patients.

Individuals exposed to PEMF have clearly shown advancements in reflexes. 10

Depression

The effect of PEMF on local brain activity explains its beneficial outcomes in depression patients. It provides an ethical alternative treatment to long term drugs using depression patients decreasing psychological pain. 11

Veterinary Uses

PEMF is now being used in pain management, reduction of inflammation, bone repair, wound healing, and anxiety management in animals. 12

PEMF Approvals & Endorsements

Year Authority Event
1979 FDA Approved for the healing of non-union fractures
1998 FDA Approved for urinary incontinence and muscle stimulation
2004 FDA Approved for cervical fusion patients at high-risk of non-fusion
2006 FDA Approved for cervical fusion patients at high-risk of non-fusion
2011 FDA Approved for the treatment of brain cancer
2015 FDA Approved as FDA wellness devices ( class 3 to class 2)
2003 NASA Publishes the effect of PEMF on human cell growth. Enhanced bone growth observed in the presence of PEMF 13

Why Select PEMF?

Pulsed Electromagnetic Field Therapy is a relatively newer technique for the treatment of many disorders. It has been showing consistent and promising results over time.

The following features of PEMF make it worthy of a trial for the people who have lost hopes for their deteriorating conditions.

More info on selecting a PEMF mat see https://pemf-guru.online/pemf-reviews/

PEMF Therapy for Natural Chronic Pain Relief:

  • Non- Invasive
  • No- Hospital/ Clinic stay
  • Reduction of chronic pain instantly
  • Reduces inflammation
  • Immediate return to routine life
  • Low-cost treatment
  • Millions of recovered patients 
  • Backed by hundreds of research articles
  • Approved by World top credible agencies  

References

  1. Negm, A; Lorbergs, A; Macintyre, NJ (September 2013). “Efficacy of low frequency pulsed subsensory threshold electrical stimulation vs placebo on pain and physical function in people with knee osteoarthritis: systematic review with meta-analysis”. Osteoarthritis and Cartilage. 21 (9): 1281–9. doi:10.1016/j.joca.2013.06.015. PMID 23973142. https://pubmed.ncbi.nlm.nih.gov/23973142/
  2. Iannitti, Tommaso et al. “Pulsed electromagnetic field therapy for management of osteoarthritis-related pain, stiffness and physical function: clinical experience in the elderly.” Clinical interventions in aging vol. 8 (2013): 1289-93. doi:10.2147/CIA.S35926
  3. Jeon, Hye-Seon, et al. “Effects of pulsed electromagnetic field therapy on delayed-onset muscle soreness in biceps brachii.” Physical Therapy in Sport 16.1 (2015): 34-39.
  4. K. S. Gunguly, A. K. Sarkar, A. K. Datta, and A. Rakshit, “A Study of the Effects of Pulsed Electromagnetic Field Therapy with Respect to Serological Grouping in Rheumatoid Arthritis,” Journal of the Indian Medical Association, 96, 9, 1998, pp.272-275.
  5. B. Rubik, R. O. Becker, R. G. Flower, C. F. Hazlewood, A. R. Liboffg, and J. Walleczek, “Bioelectromagnetics: Applications in medicine,” in B. M. Berman, D. B. Larson, et aI., Alternative Medicine, Expanding Medical Horizons, NIH Publication No. 94-066, Washington, DC, US Government Printing Office, 1994.
  6. C. A. L. Bassett and M. Schink-Ascani, “Long-term Pulsed Electromagnetic Field (PEMF) Results in Congenital Pseudarthrosis,” Calcified Tissue International, 49, 1991, pp. 216- 220
  7. M. A. Darendeliler, A. Darendeliler, and P. M. Sinclair, “Effects of Static Magnetic and Pulsed Electromagnetic Fields on Bone Healing,” International Journal of Adult Orthodontic and Orthognathic Surgery, 12, 1, 1997, pp. 43-53.
  8. F. Tabrah, M. Hoffmeier, F. Gilbert Jr., S. Batkin, and C. A. L. Bassett, “BoneDensityChangesin Osteoporosis-proneWomen Exposed to Pulsed Electromagnetic Fields (PEMFs),” Journal of Bone and Mineral Research,S, 5,1990, pp. 437-442.
  9. W. A. Jorgensen, B. M. Frome, and C. Wallach, “Electrochemical Therapy of Pelvic Pain: Effects of Pulsed Electromagnetic Fields (PEMF) on Tissue Trauma,” The European Journal of Surgery, 574 (Supplement), 1994, pp. 83- 86.
  10. T. L. Richards, M. S. Lappin, J. Acosta-Urquidi, G. H. Kraft, A. C. Heide, F. W. Lawrie, T. E. Merrill, G. B. Melton, and C. A. Cunningham, “Double-blind Study of Pulsing Magnetic Field Effects on Multiple Sclerosis,” The Journal of Alternative and Complementary Medicine, 3, 1, 1997, pp. 21-29.
  11. Van Belkum, SM; Bosker, FJ; Kortekaas, R; Beersma, DG; Schoevers, RA (3 November 2016). “Treatment of depression with low-strength transcranial pulsed electromagnetic fields: A mechanistic point of view”. Progress in Neuro-Psychopharmacology & Biological Psychiatry. 71: 137–43. doi:10.1016/j.pnpbp.2016.07.006. PMID 27449361.
  12. Gaynor, James S., Sean Hagberg, and Blake T. Gurfein. “Veterinary applications of pulsed electromagnetic field therapy.” Research in veterinary science 119 (2018): 1-8.
  13. Goodwin, Thomas J. “Physiological and molecular genetic effects of time-varying electromagnetic fields on human neuronal cells.” (2003).