What is magnetic therapy used to treat?
Magnetic treatment, also known as magnetic field therapy or bioenergy therapy, is an alternative therapy in which the body is treated with magnets of various sizes and strengths to relieve pain and treat disease. Individually or in groups, thin metal magnets are attached to the skin. They may also be used as bracelets or necklaces, sticky patches to keep them in place, or wrapped around the wrist, elbow, knee, ankle, foot, waist, or lower back in bands, belts, magnetic insoles, blankets, and slumber pads.
Depending on the ailment being treated and the practitioner, these magnets may be worn for a few minutes or for weeks. The magnetic fields created by the negative pole of the magnet, according to proponents, have therapeutic properties. Negative magnetic fields are supposed to boost metabolism, increase the quantity of oxygen available to cells, and reduce the acidity of the body’s environment.
Arthritis, cancer, circulatory disorders, diabetic neuropathy (nerve disease), fibromyalgia, HIV/AIDS, immune dysfunction, infection, inflammation, insomnia, multiple sclerosis, muscle pain, neuropathy, pain, rheumatoid arthritis, sciatica, stress, and increased energy and prolong life are among the conditions diagnosed or treated. Although there have been claims of healing with magnetic therapy, there is no scientific data to back up these claims.
There are some variations in magnetic therapy, on the basis of treating the medical condition of the patients, as mentioned below:
- Static magnetic field therapy: The term “magnet therapy” refers to the application of static magnets to the body, usually over painful areas. In comparison to an electromagnetic coil, a static magnet is a regular permanent magnet. Static magnets are attached to the body or embedded in specially designed goods like belts, wraps, and mattress cushions. Static magnets are available in a variety of strengths. Gauss and tesla are the units for measuring magnet strength. 10,000 gauss equals one tesla. The refrigerator magnet, for example, is roughly 50 gauss. The gauss of therapeutic magnets ranges from 300 to 5,000 gauss.
There are two types of polarity configurations for therapeutic magnets: unipolar magnets and alternating-pole devices. Unipolar magnets are those that have north on one side and south on the other. Bipolar or alternating-pole magnets are formed from a sheet of magnetic material with north and south magnets arranged in an alternating pattern on both sides of the skin. Because the alternating magnets tend to oppose one another, this sort of magnet produces a weaker magnetic field. There are many different perspectives on which is the better solution.
- Pulsed Electromagnetic Field (PEMF) or (electromagnetic therapy): pulsed electromagnetic therapy( PEMF): this therapy is non-steady. A PEMF is created by passing an electrical current over a looped wire, which creates a magnetic field. After that, the electrical current is activated and stopped in cycles ranging from one to hundreds of times per second. The cycles and frequencies are determined by the specific design of each PEMF device. The Pulsed Electromagnetic Field (PEMF) is a non-invasive, safe, and simple approach to treating musculoskeletal pain (Soma 350mg).
Other disorders for which PEMF has shown promise include, mending soft-tissue wounds by reducing inflammatory reactions at the cell membrane level, pain relief, and increased range of motion. PEMF has been demonstrated to improve vision in some cases, which is a subject that is still under research.
How does magnetic therapy work?
When magnetic therapy contributes to the resolution of a condition, it is considered effective. Magnetic therapy’s effectiveness is determined by the individual’s condition, magnet polarity design, magnetic field strength, application method, and magnetic field gradients.
Magnetic fields are a type of vector quantity that has both quantity and directional values. Varying magnetic materials have different qualities, and the strength and depth of penetration of a magnet are also determined by its size. Multipolar magnets, such as the Q Magnets, are far more complicated than bipolar magnets; they generate magnetic field gradients that have quite diverse effects on moving charged particles, as well as on nerves.
Magnetic treatment is used to treat pain and has a variety of other health benefits. These advantages may arise naturally as a result of magnetic therapy’s anti-inflammatory properties. It has been investigated as adjuvant therapy for the following conditions:
- arthritis pain
- chronic pain syndrome
- healing of wounds
- reduction in blood flow
- increase in microcirculation
- symptoms of multi sclerosis (MS)
- rheumatoid arthritis
- tissue and bone injury
- psychiatric disorders
- genital pain
- post-polio pain
- pain syndromes and many more conditions.
Warnings before going for magnetic therapy.
- Discuss any supplementary health practices you want to try or are presently doing with your doctor. If your doctor is aware of all of your health habits, he or she can better assist you in managing your health.
- Magnetic field therapy should not be used by young children or pregnant women because its safety has not been established.
- Magnet therapy should not be used by people who have medical devices or implants that employ a magnetic field, such as a pacemaker, because it may interfere with the implant’s function.
- When combined with traditional medical treatment, magnet therapy is expected to have no harmful side effects or consequences.
Magnetic therapy works on the nerve level to relieve pain. It may have a chemical activity that decreases inflammation, allowing the body to recover more quickly.
Magnetic therapy research confirms that it is most effective when you have access to the right magnetic therapy instruments and administer them correctly using the suitable methodology or treatment protocols. Reading through published clinical research, it’s evident that multipolar therapeutic magnets are the most successful, and it’s a good idea to spend some time learning about and visualizing the therapeutic magnet’s field of impact. The magnetic field differences in the therapeutic magnet should be strong enough so the field reaches the injured area and surrounds the target tissue so that it can cure the problem.