TECHNOLOGY VERMADERM
TECHNOLOGY LASERS
Reach new depths with our VermaDerm Technology
Er:YAG Fractional Laser 2940: Fractional laser treatments deliver superior skin rejuvenation results. Unlike standard lasers, the fractional laser ablates only a ‘fraction’ of the skin. The laser beam is directed through unique optics that split into multiple beams, known as pixels. The beams are arranged in two matrices-
7x7 (49 pixels) or 9x9 (81 pixels). The beams cause select ablation in micro-columns in the skin that are separated by healthy tissue. Following treatment, the healthy tissues expedite the recovery period by migrating new collagen and elastin into the target area.
UNPRECEDENTED PRECISION FOR SUPERIOR RESULTS 7x7 9x9
VermaDerm™: Our IR VermaDerm technology utilizes wavelengths that range from 850 to 1750 nm. The advantage of these long wavelengths is that they optimally penetrate the deeper dermal layers and can reach up to 4 mm (0.15 inches). The IR energy is delivered in multi-second pulses with the total fluency ranging from 5 to 60 J/cm². By adjusting the fluency, you can control the thermal effect in the treatment area. VermaDerm technology is ideal for the treatment of wrinkles, lax skin, enlarged pores, folds, textural issues and more.
Younger Skin
Older Skin
Q-Switched Laser: The Q-Switched laser is designated for tattoo removal. It is unique in the fact that it delivers high energy pulses of up to 200 megawatts in rapid 5-20 nanosecond pulse widths. This is possible due to its electro-optic Q-Switch which acts as a high- speed shutter that stores the light energy in between pulses. The energy causes the tattoo ink to vibrate and shatter without damaging neighboring tissue. The Q-Switched laser has dual wavelength capabilities of 1064 nm and 532 nm, which are switched using a KTP adaptor thus treating both light and dark colored tattoos.
Long Pulsed Nd:YAG Laser 1064: Our long pulsed Nd:YAG laser delivers a powerful 1064 nm wavelength. The laser is primarily used for treatment of superficial, unsightly spider veins, hair removal and other clinical indications. A key differentiator of the laser is that it penetrates deep into the dermal layer, approximately 5mm-10mm, which shorter wavelengths cannot. Furthermore, the laser heats the target area more uniformly than the shorter wavelengths, with higher absorption coefficients.
12
13
Made with FlippingBook flipbook maker