MLS LASER THERAPY

What is Laser Therapy?

Laser therapy uses light to favor and accelerate the body’s natural healing processes. The laser beam is moved over the skin so that the light energy (photons) penetrates the tissue where it interacts with various molecules (chromophores) that cause different biological effects. It produces a photochemical, photothermal and photomechanical effect.
Clinical Benefits

MLS Laser Therapy is quickly becoming the standard of care in alleviating both acute and chronic pain. This patented, FDA-cleared technology has an 85% – 90% efficacy rate in relieving pain and inflammation, eliminates risk from surgery and prescription pain killers, has no negative side effects, and restores patients’ lives.

Practitioners report that MLS Laser Therapy effectively treats pain and inflammation associated with the following conditions:

• Plantar Fasciitis
• Neuromas
• Neuropathies
• Arthritis
• Sports injuries
• Tendon & ligament injuries
• Back & joint pain
• Muscle sprains & strains
• Tendonitis
• Wounds
• Post-surgical swelling
• Disc disease

Science
The patented MLS pulse was developed as a result of nearly three decades of scientific research that studied the biological and therapeutic effects of different emission components and methods.

The departments of biology at both the University of Turin (Italy) and the University of Padova (Brazil), as well as the Department of Anatomy and the Orthopedic Clinic at the University of Padova have studied and verified the remarkable effectiveness of MLS Laser Therapy.

Multiwave Locked System (MLS) Class IV

MLS Laser Therapy is a patented emission system created to achieve an efficient and simultaneous effect on pain, contracture, inflammation, and edema within a short period of time. The patented control system that generates the MLS pulse synchronizes the emissions to achieve optimum results. Due to this characteristic synchronization, the various therapeutic effects not only take place at the same time, but reciprocally reinforce each other, without the risk of thermal damage.