EMTT
EMTT – Extracorporeal Magnetotransduction Therapy
EMTT therapy is a cutting-edge treatment that uses electromagnetic therapy to alleviate pain and improve physical function.
This innovative, non-invasive therapy is designed to stimulate the muscles, tissues, and bones in the body, promoting healing and pain relief, improving musculoskeletal dysfunction and reducing inflammatory conditions.
Disorders of the active and passive musculoskeletal system are the most common cause of pain (chronic and acute) around the globe. These disorders include back pain, osteoarthritis, injuries, inflammation of tendons and joints. People who suffer from these conditions often experience significant limitations in their everyday life as well as reduced quality of life.
Extracorporeal Magnetotransduction Therapy (EMTT) is a non-invasive procedure developed specifically for the treatment of these conditions. It differs from other forms of magnetic field therapy in its higher oscillation frequency and magnetic field strength, also known as effective transduction power. It is believed that these properties can enhance the healing processes in the body.
How does the EMTT treatment actually work?
EMTT is a largely risk-free and side-effect-free method. As a patient, you will find the therapy very comfortable: The therapy loop is positioned over the area of pain while you remain fully clothed – direct skin contact is not necessary.
High-energy magnetic pulses are then transmitted to your body, where they take effect. A single treatment session lasts between 5 and 20 minutes, and between 6 and 8 sessions are required, depending on the severity of the condition and the response to the therapy.
EMTT treatment can have a positive effect on chemical reactions in pathologically altered cells. The cell metabolism can be reactivated and physiological processes can be normalised
Essentially, EMTT causes biological effects, including the therapeutically effective magnet field, the normalization of the membrane potential, and the mechanical activation of the ionic channels. The prerequisite to all of this is membrane permeability.
Consider that a stable cell membrane ensures such permeability for vital substances. EMTT can positively influence the chemical reaction of the cell potential. Also, in areas of dysfunction, the sodium-potassium pump can be successfully reactivated so that physiological cell processes can be normalized. EMTT”s high oscillation allows the magnetic waves to penetrate up to 18 cm enabling it to work at cellular and nerve levels.