Objectives: To evaluate the efficacy of non-ablative fractional 1927nm Thulium laser in improving skin texture and radiance
Introduction: The 1927nm Fractional Thulium laser offers a refined, non-ablative approach to skin rejuvenation, specifically targeting skin texture enhancement and the achievement of radiant skin
Materials / method: This presentation explores the clinical efficacy of fractional Thulium laser treatments in addressing superficial skin irregularities, including fine lines, enlarged pores, and mild photodamage, without epidermal ablation. By delivering controlled thermal energy in a fractional pattern, the laser stimulates dermal collagen remodeling and promotes overall skin revitalization, resulting in a smoother, more luminous complexion. This presentation will detail the mechanism of action of the 1927nm fractional Thulium laser, emphasizing its high water absorption and precise energy delivery
Results: Case studies will demonstrate the clinical efficacy of this approach, showcasing improvements in skin texture and radiance. Safety considerations, post-treatment protocols, and the applicability of fractional Thulium laser treatments across diverse skin types will be addressed
Conclusion: The 1927nm Fractional Thulium laser provides a non-ablative method for skin rejuvenation, effectively improving skin texture, radiance, and treating superficial imperfections like fine lines, enlarged pores, and mild photodamage. By delivering controlled thermal energy in a fractional pattern, it stimulates collagen remodeling without damaging the epidermis. This presentation explores the laser's mechanism—highlighting its strong water absorption and precise energy delivery—along with optimal treatment settings and case studies demonstrating its clinical success.
Disclosures
Did you receive any funding to support your research for this TOPIC?
No
Were you provided with any honoraria, payment or other compensation for your work on this study?
No
Do you have any financial relationship with any entity which may closely compete with the medications, materials or instruments covered by your study?
No
Do you own or have you applied for any patents in conjunction with the instruments, medications or materials discussed in your study?
No
This work was not supported by any direct or non direct funding. It is under the author's own responsability
