THE NEW INNOVATION IN PAIN THERAPY

The super inductive (remote) magnetic stimulation introduces a new treatment method for musculoskeletal disorders using powerful pulsed magnetic fields up to 2.5–3 Tesla (=25,000–30,000 Gauss), achieving remote tissue stimulation through induction.

Adjustable frequency from 50 to 150Hz with a maximum magnetic induction of 3 Tesla.

TREATMENT METHOD


This innovative therapeutic method generates powerful electric pulses of very short duration and adjustable frequency. The high electric current of each pulse flows through the coil head, generating a magnetic field of very high induction up to 3T (=30,000 Gauss). The produced magnetic field is pulsed and periodic.

The coil is positioned a few centimeters above the affected area so that the magnetic field lines pass through it. As the human body is a conductor, electric currents are induced in it depending on the magnetic field’s intensity and duration. These induced currents are strong enough to cause muscle contraction and stimulation of the nervous system.

MEDICAL APPLICATIONS OF MAGNETIC FIELDS

The use of magnetic fields has been well established in modern medicine for decades. Common applications include:

  • Magnetic resonance imaging (MRI), a non-invasive imaging method
  • Magnetotherapy using low-intensity pulsed fields for musculoskeletal treatment
  • Transcranial Magnetic Stimulation (TMS) for neurological and psychiatric disorders

DIFFERENCES FROM CLASSICAL MAGNETOTHERAPIES

Key differences from conventional magnetotherapy include:

  • Magnetic fields up to only about 100 Gauss (=0.01 Tesla), not strong enough to stimulate the muscular or nervous system
  • Therapeutic effect limited to analgesia and fracture healing
  • Fields are too weak to be perceived by the patient
  • Longer treatment sessions (20–30 minutes each)

BIOLOGICAL EFFECTS

The system affects the body via two main mechanisms:

  1. Deep stimulation of muscles and nerves through high-intensity magnetic fields, affecting deeper structures unlike surface-limited electrical therapy. Used for conditions like peripheral nerve damage, denervated muscles, atrophy, spasms, joint stiffness, muscle strengthening, joint mobilization, etc.
  2. Magnetic resonance of cells via transient alignment of nuclei with an odd number of protons (mainly hydrogen), leading to improved healing of pain, tendinitis, arthritis, and fractures.

Overall biological effects include:

  • Analgesia via endorphin release
  • Improved cell membrane function via Na-K pump regulation
  • Autonomic nervous system balance
  • Hyperemia
  • Increased white blood cells
  • Enhanced collagen production
  • Faster calcification
  • Anti-inflammatory effect
  • Increased metabolism

INDICATED CONDITIONS

  • Chronic pain
  • Chronic/acute low back pain
  • Cervical syndrome
  • Musculoskeletal disorders
  • Frozen shoulder
  • Delayed fracture healing
  • Neurological disorders (stroke, multiple sclerosis, etc.)
  • Neurogenic atrophy
  • Spasticity
  • Muscle atrophy
  • Degenerative osteoarthritis
  • Rheumatoid arthritis
  • Pelvic pain
  • Wound and pressure ulcer healing

THERAPY ADVANTAGES

  • Non-invasive, natural treatment with fast and effective results
  • Completely safe due to remote, contactless application
  • Easy and quick application even over clothing
  • Short treatment duration with immediate return to daily activities
  • High patient satisfaction with painless, side-effect-free sessions

Low operating cost without consumables
* Contraindicated for patients with pacemakers, hearing aids, insulin pumps, drug infusion pumps, metal implants, or other metal objects.

References
Evidence based use of pulsed electromagnetic field therapy in clinical plastic surgery
Strauch et al, Aesthet Surg J. 2009 Mar-Apr;29(2):135-43
Therapeutic uses of Pulsed Magnetic Field Exposure: a Review, Shupak N, Radio Science Bulletin. 2003, Dec No 307