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Lasers in Dermatology

»What does the term “laser” stand for?
»What does “stimulated emission of radiation” mean?
»How is the light amplified in the laser system?
»What types of medium are used in laser systems?
»What are the special features of laser light?
»Why is monochromatic light useful?
»What is selective photothermolysis?
»What is an ablative laser?
»What is a nonablative laser?
»What is Q-switching?
»What is a fractional laser?
»How are the types of dermatologic lasers classified?
»What lasers have historic interest but are seldom used?
»What are the basic features of the carbon dioxide (CO2) laser?
»What are some uses for the standard carbon dioxide laser?
»How is the CO2 laser used for resurfacing?
»What precautions must be used with the CO2 laser?
»What are the basic features of the erbium:YAG laser?
»What are pulsed dye lasers?
»What is the flashlamp pulsed dye vascular lesion laser used to treat?
»What is nonablative resurfacing and how does a pulsed dye laser accomplish this?
»What are the disadvantages of the pulsed dye laser?
»What is an Nd:YAG laser?
»How are the long-pulsed Nd:YAG (1064-nm) lasers used?
»How are the long-pulsed KTP lasers used?
»How are the Q-switched Nd:YAG lasers used?
»What is the alexandrite laser?
»How are the alexandrite lasers used?
»What is the ruby laser?
»How are the ruby lasers used?
»What is a diode laser?
»How are the diode lasers used?
»What are nonablative fractional lasers, and for what are they used?
»What are ablative fractional lasers, and how are they used?
»What is an intense pulse light machine?
»What are IPL machines used to treat?
»Are there any risks for IPL use?
»What is radiofrequency resurfacing?
»Are there any risks with radiofrequency treatments?
»What new technologies will soon be available?

 
 
 
 

What are ablative fractional lasers, and how are they used?

Ablative fractional lasers fire a vaporizing pulse into the skin. There is a column of tissue ablation formed. The fractional lasers spread the pulses out using a variety of scanning devices. The theory of these fractional ablative lasers is to markedly reduce the healing time by spreading the pulses out, leaving normal epidermis between the pulses. As with nonfractional laser pulses, Er:YAG is more purely ablative than CO2. The latter uses the surrounding tissue heating to help collagen contraction and remodeling. The first ablative fractional laser used was a 2940-nm (Er:YAG) laser called PIXEL. This has been joined by other Er:YAG fractional devices and many CO2 10,600-nm fractional lasers. There is even a diode 532-nm ablative fractional laser.

Fractional lasers are primarily used for cosmetic purposes. They help with mild to moderate facial rhytids, hyperpigmentation, and lentigines, and are very effective in helping acne scarring. Table 54-11 lists the ablative fractional lasers.

Brightman LA, Brauer JA, Anolik R, et al: Ablative and fractional ablative lasers, Dermatol Clin 27:479–489, 2009.
Table 54-11. Ablative Fractional Lasers
 WAVELENGTHTYPECOMPANYNAME
 
2940 nm
 
Er:YAG
 
Alma
 
PIXEL
 
2940 nm
 
Er:YAG
 
Cynosure
 
Affirm
 
2940 nm
 
Er:YAG
 
Focus Medical
 
NaturaLase Er
 
2940 nm
 
Er:YAG
 
Fotona
 
XS Dualis
 
2940 nm
 
Er:YAG
 
Fotona
 
Venus-i
 
2940 nm
 
Er:YAG
 
Palomar
 
Lux2940 Fractional
 
2940 nm
 
Er:YAG
 
Sciton
 
ProFractional
 
2790 nm
 
Er:YSGG
 
Cutera
 
Pearl Fractional
 
10600 nm
 
CO2
 
Alma
 
Pixel CO2
 
10600 nm
 
CO2
 
Candela
 
Quadralase
 
10600 nm
 
CO2
 
Cynosure
 
Afirm CO2
 
10600 nm
 
CO2
 
Eclipse
 
SmartXide DOT
 
10600 nm
 
CO2
 
LaseringUSA
 
MiXto XS
 
10600 nm
 
CO2
 
Lumenis
 
Ultrapulse
 
10600 nm
 
CO2
 
Lutronics
 
eCO2
 
10600 nm
 
CO2
 
Solta Medical
 
Fraxel re:pair
 
 
 

 

 

 

 

 

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