Patients with scars, lesion & wrinkles will notice a significant improvement of appearance. Skin rejuvenation patients will notice toned skin with smaller pores & better laxity.
The science behind eCO2
CO2 laser with controlled outcomes
eCO2 plus works by fractional ablative 10,600 nm CO2 laser which is absorbed by all the tissues containing water resulting in its evaporation. This evaporation results in the ablation of micro-columns of skin layers & fibrotic tissue.
A later formation of new tissues results from the thermal effect that shrinks collagen which triggers necollagenesis to compensate the ablated tissues.
When compared to other fractional wavelengths, CO2 has lower water affinity which results in more penetration making it the most effective wavelength in scars, skin tags & wrinkles.
Building the right combination
Supported by its guidelines, eCO2 plus provides variable controls that enable to adjust parameters to match different needs by:
Matching lesion shape through beam size & shape control.
Increasing depth of ablation by increasing power, energy or by using smaller beam diameter.
Limiting the diameter of thermal damage by using small beam diameter.
Controlling heat dissipation to surrounding tissues by changing pulse duration.
eCO2 provides a wide range of controls like energy, density, power, scan shapes & beam size, this enables tailoring parameters combination for each case & obtain precisely expected outcomes.
Minimizes human mistakes
The skin contact sensor ensures firing laser only upon contact with skin, thus it minimizes user mistakes like unintended laser shots or shooting from a wrong angle.
Treatment-specific spot sizes
120 µ tip has high penetration which is useful in scars & laxity treatments, 300 µ tip has medium penetration that suits pores reduction & 500 µ tip superficial penetration is beneficial in rejuvenation treatments.
Reduced downtime
Using the option of small beam diameter create smaller zones of ablation which reduces the required healing time due to the faster re-epithelialization.
Thermal impact control
eCO2 provides pulse duration control through several pulse modes, this minimizes the heat dissipation and allows customizing parameters to match needs of different cases.
Scar shape matching
By controlling the shape & size of the scan, eCO2 matches between its laser footprint & the shape of the treated area, thus it minimizes unwanted damage to surrounding tissues.
Controlled chaos technology
Laser micro-beams are fired in a computerized sequence ensuring that no two micro-beams fall beside each other in same time. This minimizes the heat overlap and consequently increases tolerance, safety and reduces downtime.
Single-pass treatment
eCO2 allows selection of different densities, high density choices eliminate the need for multiple passes and minimizes unwanted overlap.
Lowest running cost
eCO2 is highly durable & uses an energy source that doesn't require frequent refurbishment. This minimizes the running costs & therefore maximizes profit.
Short 30 mins session
Continuous pulsing by the dynamic mode allows fast completion of treatments, a static mode is also available to be used for cases that need step by step precision.
Simulate then treat
eCO2 provides a practice mode that enables simulating the treatment before doing it & a safe training for new users.
Comfortable user experience
The smart design of the arm carries away the weight of hand piece allowing a smooth control by the user & prevents exhaustion during busy days.
Memory function
eCO2 enables saving parameters used for patients in its memory to simplify the follow up in future sessions, the memory also allows saving favourite parameters' combinations & recalling it later by a single button click.
