The endovenous laser fiber is designed for minimally invasive treatment of varicose veins using EVLT and EVLA laser systems. This medical radial laser fiber enables precise energy delivery inside the vein, ensuring controlled ablation and effective closure of diseased vessels.
Operating typically with 1470nm vascular laser systems, the fiber is optimized for stable light transmission and uniform radial emission. It is widely used in endovenous laser ablation procedures performed in vascular surgery clinics and hospitals.
Endovenous laser ablation (EVLA) is a minimally invasive procedure used to treat varicose veins. A thin laser fiber is inserted into the diseased vein and laser energy is delivered to seal the vein wall, allowing blood to reroute through healthy vessels.
The radial fiber tip distributes laser energy evenly in a circular pattern, reducing the risk of vein perforation and improving treatment safety. Compared with traditional bare-tip fibers, radial emission ensures more uniform vein wall heating during EVLT procedures.
The optical design allows homogeneous 360° laser emission, providing consistent ablation along the treated vein segment.
The fiber is commonly used with 1470nm diode laser platforms designed for vascular surgery and endovenous treatment.
Varicose vein treatment
Endovenous laser ablation (EVLA)
EVLT vascular procedures
Minimally invasive vein surgery
