THE FUTURE OF PROFESSIONAL AESTHETICS IS ALREADY HERE
Discover the most advanced technological, cosmetic innovation. MEGAN brings you closer to the future and helps you care for and improve your skin with a system that brings extraordinary cell regeneration from the deepest layers of skin tissue. This not this is no sci-fi movie. MEGAN is the reality of technology, developed by Skeyndor and based on the most ground-breaking beauty science techniques. The culmination of the knowledge and experience of 50 years of research.
DESCRIPTION
TRI SYNERGY TECH™ THE EVOLUTION IN COSMETIC TECHNOLOGY
For the first time, Tri Synergy Tech™ combines the full potential of Hi-Freq, Dermaboost and Deep RGB with a unique multi-treatment device that, together with Hi-Tech Performing Cosmetics, creates a perfect synergy with spectacular effects. The before and after in cosmetic treatments involving devices.
TECHNOLOGIES
DEEP REGENERATION BEGINS WITH HI-FREQ
HI-FREQ Reactivates the skin from deep down. Hi-Freq is the first step in the MEGAN® system. A high-frequency monopolar capacitive current that, together with the high-performance conductive Hi-Freq Gel, stimulates, regenerates and reshapes the skin’s deepest tissues.
MAXIMUM PERMEABILITY AND EFFICACY WITH DERMABOOST DEEP RGB
Direct to the deepest layers. The second step combines the Dermaboost and Deep RGB technologies. Dermaboost increases penetration and improves the absorption of the LED Active ingredients thanks to state-of-the-art hydroelectroporation currents, specially adapted for the MEGAN system. In turn, the Deep RGB technique activates the LED Active photostimulable concentrates formulated using Drone Cosmetic technology. Each beam of light penetrates different skin levels and is applied with a specific concentrate for each need: pores, brightness, firmness, blemishes, wrinkles and lax skin.
Dual-action technological synergy
For the first time, Dermaboost and Deep RGB technologies are innovatively combined in a single handpiece that works at the medium frequency at different modulation rates.