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Ablation of human nail by pulsed lasers

✍ Scribed by Neev, Joseph; Stuart Nelson, J.; Critelli, Marguerite; McCullough, Jerry L.; Cheung, Eric; Carrasco, William A.; Rubenchik, Alexander M.; Da Silva, Luiz B.; Perry, Michael D.; Stuart, Brent C.

Publisher
John Wiley and Sons
Year
1997
Tongue
English
Weight
257 KB
Volume
21
Category
Article
ISSN
0196-8092

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✦ Synopsis

Background and objective:

The hard and resistant structure of the nail plate forms a natural barrier that limits the penetration of topical drugs. to overcome this barrier, the use of pulsed laser systems has been suggested. the purpose of this study was to evaluate the effect of four laser systems on nail plate ablation rates, ablation efficiencies, and subsequent craters morphology.

Study design/material and methods:

Solid state er:yag (2.94 microns, 250 microseconds), a ho:ysgg (2.08 microns, 250 microseconds), a xec1 excimer (308 nm, 15 ns), and a novel solid-state ultrashort pulse laser (1.05 microns, 350 fs) were used. ablation rates, surface morphology, and extent of collateral damage were evaluated using light and electron microscopy.

Results:

Best ablation efficiencies were demonstrated with the ultrashort pulsed laser (1 micron/mj), whereas maximum material removal per pulse was obtained with the er:yag laser (80 microns/ pulse). scanning electron microscopy showed cracking damage with both ho:ysgg and er:yag. xec1 and the ultrashort pulse system left tissue surfaces free of cracks or thermal damage.

Conclusion:

With its minimal acoustical and mechanical impact, high efficiency, and negligible collateral damage, the ultrashort pulse laser at 3 j/cm2 was found to be the optimal laser system for nail ablation.

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