Cloud PR Wire

MAYER Launches Advanced Q-Switched Lasers for Tattoo and PMU Removal

Moscow, Russia, 7th Apr 2025 – MAYER, a leading innovator in medical-aesthetic laser technology, announces the release of its next-generation Q-switched Nd:YAG systems: the MAYER MINI and MAYER MAX. Designed for professional tattoo removal, permanent makeup (PMU) correction, and carbon peeling, these devices set new industry standards for safety and efficacy.

Key Features of MAYER MINI

  • Multi-Purpose Treatment: Effectively removes stubborn tattoos (including metal-based inks) and corrects PMU complications (e.g., blue/gray eyebrows, pigment migration).
  • Non-Invasive Technology: Patented nozzles operate at 2–3 cm distance, minimizing skin trauma and improving pigment fragmentation.
  • Advanced Cooling System: German-engineered dual cooling (water + air) ensures uninterrupted operation.

MAYER MAX: High-Capacity Performance

  • Triple-Wavelength System (1064 nm, 532 nm, 1320 nm): Targets deep pigments (black, red, orange) and stimulates collagen for skin rejuvenation.
  • Compact yet Powerful: 37 kg mobile unit delivers performance comparable to stationary systems.
  • Smart Safeguards: Auto-shutoff for overheating, real-time water flow monitoring, and usage tracking.

Clinical Applications

  • Tattoo Removal: Dense, aged, or multi-colored tattoos.
  • PMU Correction: Reversal of botched eyebrow, lip, and eyeliner procedures.
  • Carbon Peels: Oil control and pore refinement.

Proven Results

In clinical testing:

  • 90% clearance of metallic ink tattoos in 4–6 sessions.
  • 70% reduction in blue PMU pigment after 1–2 treatments.

About MAYER

Founded in 2017, MAYER specializes in medical-aesthetic laser systems, serving 195 clinics across the CIS. With ISO-certified manufacturing and 24/7 technical support, MAYER combines.

file

Post Disclaimer

Disclaimer: The views, suggestions, and opinions expressed here are the sole responsibility of the experts. No Marketwise Analytics journalist was involved in the writing and production of this article.