Effectively modulate the inflammatory processes secondary to their deep stimulation of tissues. This deep stimulation triggers vasodilatation and increased oxygenation, which activates the main metabolic activities and resolves the inflammatory process quicker.
Acceleration of healing processes primarily manifests in the form of fibroblast activation. The actual cascade of healing is fueled by increased ATP synthesis and increased protein synthesis combined with cellular proliferation.
Key Features & Benefits
• Deep tissue penetration with power up to 15 W
• Optimal tissue absorption due to the 3 different wavelengths: 810 nm, 980 nm & 1064 nm
• Different emission modes for optimal output adjustment
• Preset protocols for easy application
Biostimulation is the ability to stimulate tissue growth and repair at a cellular level. The essential properties of true laser light are classified by being monochromatic, coherent, and collimated or precisely fine-tuned at 810 / 980 nm and 1064 nm wavelengths.
stimulus to the nociceptors of the skin affects the peripheral neurological tract and polarizes the A-β and A-δ neurons as described in the paingate-control theory. This polarization activates the neural and humoral endorphinergic pain inhibition system with immediate pain relief as a result.
Laser therapy offers effective treatment of a wide range of conditions
High intensity Laser therapy offers effective treatment of a wide range of clinical conditions ranging from muscle injuries and tendinopathies to degenerative joint diseases.
Providing optimal tissue absorption which can almost immediately arrest soft tissue and joint pain
WIDE RANGE OF CONDITIONS
From muscle injuries & tendinopathies to degenerative joint diseases.
High Power Laser treatment has been thoroughly researched and documented. Here are some clinical studies that support the efficacy of the treatment:
Alayat MS, Atya AM, Ali MM, Shosha TM. Long-term effect of high-intensity laser therapy in the treatment of patients with chronic low back pain: a randomized blinded placebo-controlled trial. Lasers Med Sci. 2014 May;29(3):1065-73.
Dundar U, Turkmen U, Toktas H, Solak O, Ulasli AM. Effect of high-intensity laser therapy in the management of myofascial pain syndrome of the trapezius: a double-blind, placebo-controlled study. Lasers Med Sci. 2015 Jan;30(1):325-32.
Karaca B. Effectiveness of High-Intensity Laser Therapy in Subacromial Impingement Syndrome. Photomed Laser Surg. 2016 Jun;34(6):223-8. Mårdh A, Lund I. High Power Laser for Treatment of Achilles Tendinosis – a Single Blind Randomized Placebo Controlled Clinical Study. J Lasers Med Sci. 2016 Spring;7(2):92-8.
How it works
Laser energy stimulates a healing cascade which facilitates the ATP synthesis in the tissue promoting protein synthesis and cell proliferation. This process results in reduced inflammation, swelling & muscle spasm.
3 specific wavelengths stimulate high permeability of the biological chromophores, the light absorbing part of the molecule that allows for penetration of the light into the cell mitochondria.
A thermal stimulus to the nociceptors of the skin affects the peripheral neurological tract and polarizes the A-β and A-δ neurons as described in the paingate-control theory. This polarization activates the neural and humoral endorphinergic pain inhibition.
Inflammation is necessary for healing. HPL Laser effectively modulate the inflammatory processes secondary to their deep stimulation of tissues. This deep stimulation triggers increased oxygenation.
HPL Laser produces a healing cascade which is fueled by increased ATP synthesis and increased protein synthesis combined with cellular proliferation.