MedArt NeoNailTM

The MedArt NeoNailTM is a diode laser system for treatment of onychomycosis, which is a fungal infection of the fingernails or toenails. Onychomycosis is the most common of all nail diseases in adults, and men are more commonly infected than women. MedArt experts employed all their knowledge and more than 30 years of experience to design the portable and accurate MedArt NeoNailTM diode laser system to offer a safe and efficient treatment.

 

 

Applications
  • Treatment of Onychomycosis:
    • Treatment areas: Fingernails, toenails

How it Works

The MedArt NeoNailTM system, with the ideal weight of 4.5 kg, is a compact and user friendly laser for onychomycosis treatments. The NeoNailTM system is a 980 nm diode laser that provides a continuous or pulsed wave laser beam which allows a fast heat increase in the irradiated area, leading to effective heating of tissue. The MedArt NeoNailTM transmits through an optical fiber system, and the power density is maximum 200 W/cm2. The NeoNailTM laser system provides advanced built-in facilities for out-put power verification purposes.

MedArt NeoNail Key Benefits

MedArt Technical MedArt Medical
  • Compact and Portable
  • Built-in Power Meter
  • QSC – Connection for Optimal Protection of Laser Console
  • No Running Costs
  • Cost Effective
  • Reliable
  • Ergonomic Design
  • No Regular Maintenance Needed
  • Extended Warranty Options
  • Training Courses
  • No Post-op Downtime
  • Minimum Risk of Side Effects
  • Few Treatments Required
  • Fast Treatment
  • Fast Outpatient Procedure
  • Treat all Skin Types

MedArt NeoNailTM

Accessories

The MedArt NeoNailTM is ergonomically designed for comfort and safety. The red indicator light through the fiber (635 nm) is provided to ensure maximum control during the procedure. The MedArt NeoNailTM with fiber system and handpiece offers a spot size from 2.4 mm. Separate, movable (non-fixed) holder for safe and convenient storing of optical handpiece. The MedArt Ouick Safe Connect (QSC) is created to minimize the risk of optical damages in fiber connection.