The leading medical BIOPTRON Hyperlight Therapy device can treat a wide range of skin problems, including the infections caused by viruses or bacteria and the conditions affecting the mouth.

Bioptron regulates skin regeneration, improving the production of collagen, elastin and fibroblasts to preserve healthy skin layers. It also improves microcirculation, increasing the healing rate and improving the skin condition.

During the whole reparative process medically certified Hyperlight Therapy decreases inflammation, pain and infection rate. Bioptron Hyperlight increases the mobility and migration of fibroblasts: In every dermatological disorder, the regeneration of the skin is a pivotal process. Bioptron Hyperlight increases the mobility of newly-formed fibroblasts, a critical process to skin healing.

Bioptron Hyperlight promotes the expression of binding factors that promote this migration, contributing actively to faster regeneration of the damaged skin unpublished data. Bioptron Hyperlight increases collagen production: Collagen is an essential protein for the entire body. Cell Biology International, , 26 3 ; Fenyö, Z. Somosy, L. Gazso and I. Kertesz: Investigations on biological effect of polarized light. Photochemistry and Photobiology, , 48; Bolton, M.

Dyson and S. Young: The effect of polarized light on the release of growth factors from the U macrophage-like cell line.

BIOPTRON Svjetlosna Terapija – Često postavljena pitanja

Laser Therapy, , 2 3 ; Kertesz, M. Fenyö, E. Mester and G. Bathory: Hypothetical physical model for laser dissimulation. Optics and Laser Technology, , 16; Samoilova, K. Obolenskaya, A. Vologdina, S. Snopov and E. Shevchenko: Single skin exposure to visible light induces rapid modification of entire circulation blood - 1.

Improvement of rheologic and immune parameters. Roberts: Visible light induces changes in the immune response through an eye-brain mechanism photoneuroimmunology, Journal of Photochemistry and Photobiology, B: Biology, , 29 1 ; Liječenje rana [8] L. Medenica and M. Lens: The use of polarised polychromatic non-coherent light alone as a therapy for venous leg ulceration. Journal of Wound Care, , 12 1 ; Monstrey, H.

Hoeksema, H. Saelens, K. Depuydt, M. Hamdi, K. Van Landuyt and P. Blondeel: A conservative approach for deep dermal burn wounds using polarised-light therapy. British Journal of Plastic Surgery, , 55; Iordanou, G. Baltopoulos, M. Giannakopoulou, P. Bellou and E. Ktenas: Effect of polarized light in the healing process of pressure ulcers.

International Journal of Nursing Practice, , 8 1 ; Hoeksema, K. Depuydt, G. Van Maele, K. Blondeel: The effect of polarized light on wound healing. European Journal of Plastic Surgery, , 24 8 ; Invited commentary: W. Vanscheidt, The effect of polarized light on wound healing. The use of polarized light in aesthetic surgery. Aesthetic Plast. Tretman boli [14] M. Ballyzek, V.

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