Fractional CO2 laser[ SmartXide]

Laser » Fractional CO2 laser[ SmartXide]

       This ablative laser goes deeper than newborn skin laser. It has a different way of shrinkage collagen. It give a better result for deep wrinkles, more severe textural changes from sun-damage, scars including acne, surgical, traumatic scars. Fractional Co2 has downtime. You will have 5-7 days for recovery time. 



  Where DEKA makes the difference
SmartXide2 DOT/RF: Combined Action, Total Rejuvenation

With SmartXide2 DOT/RF DEKA has developed an innovative and exclusive configuration designed for aesthetic medicine and dermatological surgery, introducing for the first time the combined action of CO2 laser with radiofrequency to combat skin alterations as never before.

SmartXide2 corrects skin imperfections and counteracts the effects of aging, such as wrinkles and flabbiness, by exerting a unique action on the tissues with effective stimulation of neocollagenesis. It is also ideal for areas hitherto considered untreatable such as the neck, décolleté and periocular area.

DEKA, world leader in the development of advanced laser systems, concentrated the results of thirty years of know-how into the technological advancements of the SmartXide2. The CO2, laser source with exclusive PSD® (Pulse Shape Design) technology, achieves performance levels never attained before in dermatological applications. The therapeutic action selectively reaches surface tissues and deeper areas, ensuring maximum reliability in controlling the application, with minimum thermal damage and extremely rapid recovery times for patients. In line with the ongoing quest for innovation, DEKA paves the way towards a new multidisciplinary, avant-garde laser system.


Plastic and Aesthetic Surgery   Plus

  • Exclusive PSD® technology delivering fractional laser pulses of different structure, duration and peak power.
  • The innovative HiScan DOT/RF scanner system can selectively reach all skin layers.
  • Fractional scanning mode with exclusive SmartTrack randomisation algorithm to minimise any increase in local temperature.