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Chap. 44 - OVERVIEW OF CO2 AND ER:YAG LASERS AND PLASMA DEVICES

from PART FOUR - COSMETIC APPLICATIONS OF LIGHT, RADIOFREQUENCY, AND ULTRASOUND ENERGY

Published online by Cambridge University Press:  06 July 2010

Sorin Eremia
Affiliation:
University of California, Los Angeles, School of Medicine
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Summary

Laser skin resurfacing remains the most effective modality for skin rejuvenation. Indications for treatment include dyschromia, photoaging, rhytids, skin laxity, and acneiform scars. Although numerous nonablative laser and light devices have been developed over the years, none of them is able to deliver results equivalent to ablative devices. The effectiveness of ablative lasers results from their ability to accomplish two major effects: first, complete and total vaporization of the epidermis removes unwanted pigment and solar-damaged cells; second, there is deeper penetration and diffusion of thermal energy that heats dermal tissues, causes tissue contraction, and stimulates new collagen production. The net effect of these two processes is that a new, more uniform epidermis is regenerated, without unwanted pigmentation. Additionally, solar elastosis is removed from the superficial dermis, yielding a brighter, more lustrous skin tone, and immediate tissue contraction plus new collagen production lead to the reduction of wrinkles and tighter skin.

The use of ablative lasers for skin resurfacing goes back to the 1980s. Early devices consisted of continuous wave CO2 lasers. These lasers provided adequate ablation of tissue; however, longer dwell times resulted in prolonged and unpredictable thermal heating, charring of the tissue, and a high risk of scarring. The true breakthrough occurred in the early to mid-1990s, when CO2 pulsed lasers with pulse durations in the millisecond domain were introduced for resurfacing. The addition of efficient scanners made these systems even more practical.

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Publisher: Cambridge University Press
Print publication year: 2010

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References

Alster, TA, Nanni, CA, Williams, CM. Comparison of four carbon dioxide resurfacing lasers: a clinical and histopathologic evaluation. Dermatol. Surg. 1999;25:153–9.CrossRefGoogle ScholarPubMed
Duke, D, Khatri, K, Grevelink, LM, Anderson, RR. Comparative clinical trial of 2 carbon dioxide resurfacing lasers with varying pulse durations. Arch. Dermatol. 1998;134:1240–6.Google ScholarPubMed
Zachary, CB. Modulating the Er:YAG laser. Lasers Surg. Med. 2000;26:223–6.3.0.CO;2-K>CrossRefGoogle ScholarPubMed

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