We Offer Diode Lasers with 7w/1940nm

Wavelength for Varicose Vein
( EVLT ),

Laser treatment for Varicose vein ( EVLT )

EVLT (Endovenous Laser Treatment) is a procedure leading to occlusion of varicose veins. It involves putting a fibre optic into a saphenous vein through a catheter. Then the laser is turned on and slowly withdrawn from the vein.
Thanks to light tissue interaction mainly thermal effects occur, the tissue is heated and the walls of the vein shrink, because of alteration of endothelium and contraction of collagen.
There are two possibilities of performing the treatment: with pulsed and continuous-wave laser operation. Using the pulsed operation also the fibre is withdrawn step by step. A better choice is to use continuous-wave laser and to withdraw the fibre also continuously, what provides more homogenous illumination of the vein, less tissue damage outside the vein and better results.

Advantages of Varicose vein ( EVLT ) laser treatment

High success rate
Low recurrence rate
Quick treatment
Quick Recovery

Optimal Wavelength

AR Photoniccs laser device operates in the 1940nm wavelength, which precisely targets water in soft tissues. It features a higher absorption rate of water and fat than all other competing devices. The device allows for optimized fat removal, with minimum tissue damage. Laser energy is delivered at a low power density for maximum safety, minimizing the risk of burns.

Laser Technology

Laser powered by the 1940nm diode device along with recent innovations brings the cutting edge technology to Tumescent Liposuction, including targeted fat removal with minimal bleeding and bruising with less physician exertion and a faster recovery in patients. The Laser system consists of a 1940nm wavelength device, which specifically targets fat-water absorption with the combined capability of infiltration and suction. The device has an integrated cannula and fiber interface for simultaneous lasing and suction. AR Photoniccs device is most beneficial in the treatment for efficient fat-emulsification and removal of fatty tissues. The unique radial and bare emitting fiber of the device helps in wider and even-heat emission distribution, with precise temperature control capabilities. The results are improved skin tightening, reduced procedure time, high-fat viability for successful grafting and superior clinical results.