Introducing TwinLight® Fractional Rejuvenation
Past skin rejuvenation procedures treated large areas of skin, whether aged or not. But with Fotona’s revolutionary TwinLight® Fractional Rejuvenation method, the laser light precisely targets imperfections in the skin, leaving the surrounding healthy skin untouched. The heat from the laser energy also stimulates the production of new collagen in the dermis, and the surrounding, untreated skin helps to speed the rejuvenation process.
A Simple and Effective 3-Step Solution
TwinLight® Fractional Rejuvenation is a simple 3-step procedure optimized to significantly improve skin smoothness and give it a fresher, healthier look. The deep heating effect of Fotona’s Nd:YAG laser beam helps rejuvenate and stimulate the skin, while the Er:YAG beam helps the body to form new, tighter skin.
Step 1 - Conditioning: An Nd:YAG beam is passed along the surface twice. The first pass provides a short stimulus to the skin, the second pass penetrates the tissue, causing deep FRAC3® heating and conditioning the skin for an effective fractional treatment therapy.
Step 2 - Fractional therapy: Old, worn-out skin is ablated away by a fractional Er:YAG laser. The precise micro-ablated channels will be replaced with new, tighter and healthy tissue as new skin forms.
Step 3 - Peeling: The skin is ablated with a light full Er:YAG beam, which finishes the treatment and removes superficial imperfections.
Using fractional light to rejuvenate the skin can produce an effect that is perfectly graded to your patient's expectations, and offers a degree of control and efficacy that allows for highly precise sculpting of the skin. Treatments can extend from light touch-ups to deep collagen remodeling, ideal for patients who want drastic rejuvenation effects, but are not inclined towards aggressive surgical or chemical alternatives. This treatment is suitable for all skin types and tones, with minimal patient downtime.
The following dual-wavelength laser systems from Fotona are ideal for TwinLight® Fractional Rejuvenation as well as other skin resurfacing and rejuvenation treatments:
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The SP Line of multi-application laser systems from Fotona (SP Dynamis & SP Spectro) provides a single uniquely capable and full-featured system offering the power of the industry's highest performance Er:YAG and Nd:YAG lasers, ideal for fractional skin resurfacing and a wide range of other applications in aesthetics and dermatology. The SP Dynamis model also includes an additional surgical QCW Nd:YAG laser for lipolysis, hyperhidrosis and many other surgical procedures.
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The TimeWalker® Fotona4D® is a next-generation Er:YAG and Nd:YAG aesthetic laser dedicated to facial aesthetic treatments. With a unique combination of Fotona’s advanced laser technology and proprietary ASP-powered treatment modes, TimeWalker® is designed and optimized for non-invasive face lifting procedures such as Fotona4D®, SmoothEye® and LipLase®.
Superior Performance
Both the SP Dynamis and the SP Spectro are equipped with a high performance Er:YAG laser that maximizes ablation efficiency with proprietary VSP (Variable Square Pulse) technology, which can be accurately tuned to varying “cold” ablation and non-ablative thermal ratios. Full customizability allows you to precisely attain the clinical outcomes your patients desire.
The Nd:YAG laser on the SP Dynamis & SP Spectro perfectly complements the Er:YAG laser’s ablative action with the ability to penetrate deeply into the skin to create thermal effects without damaging the skin surface. Compared to conventional Nd:YAG technologies, Fotona’s proprietary VSP pulses create virtually instantaneous temperature increases that are limited to the targeted structures only. No unnecessary energy is deposited into the skin.
Handpieces & Accessories
Fotona's specially designed, innovative handpiece technology allows safe, precisely controlled and optimal delivery of laser pulses to the treatment area. More information about handpieces and other accessories is available on the SP Line and TimeWalker® Fotona4D® product pages.