Safety and Efficacy of Repetitive Peripheral Magnetic Stimulation in Patients With Achilles Tendinopathy

Tendons are collagenous tissues that link muscle to bone, and in best case, a painless transmission of force allows voluntary movement over a life time. Although tendons show long time underestimated repair and remodelling capacities, some of them (e.g. the human patellar or Achilles tendon) remain quite prone to injury. To make things worse, tendinous tissue reveals incomplete healing capacities and treatments seem to be ineffective to avoid the high injury recurrence rate and/or the occurrence of chronic tendon pain. Thus, both elite and recreational athletes, as well as the non-sporting population or workplace employees often suffer from symptoms like tendon swelling, localized tenderness, activity related pain and impaired performance, also known as tendinopathy. Such pain-induced restriction of mobility frequently means the end of a sporting carrier, deteriorates the quality of life and patients have to live with all harmful consequences of physical inactivity. One tendon most commonly afflicted by this debilitating musculoskeletal injury is the Achilles tendon. Although it is the strongest tendon in our body, the prevalence for tendinopathy can be as high as 56% among certain athletes.

The repetitive peripheral magnetic stimulation (rPMS) works through a deep operating, focused and painless stimulation mechanism generated by pulsed magnetic fields. This intervention is already successfully in use to accelerate the healing of bone fractures and to enhance the healing of operated rotator cuff tears. Additionally, data on in vitro tendon cells indicate the positive effect of rPMS on tendon tissue by stimulating cell proliferation, up-regulating tendon-specific gene expression and releasing anti-inflammatory cytokines and growth factors. More interestingly, intervention studies on the healing of rotator cuff tendon-to-bone injuries in rat models show increases in tendon stiffness and modulus and enhanced collagen organization, and type I collagen expression after prolonged rPMS without showing adverse effects in any mechanical or histological property. These results strongly support the hypothesis that rPMS might be effective in treating Achilles tendinopathy in humans. This intervention might reduce pain and functional limitations, reverse tendon degenerative changes and increase the impaired tendon mechanical and material properties.