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- Title
Ultrastructure: Effects of Melanin Pigment on Target Specificity Using a Pulsed Dye Laser (577 nm).
- Authors
Tong, Arthur K. F.; Tan, Oon T.; Boll, James; Parrish, John A.; Murphy, George F.
- Abstract
It has been shown recently that brief pulses of 577 nm radiation from the tunable dye laser are absorbed selectively by oxyhemoglobin. This absorption is associated with highly specific damage to superficial vascular plexus blood vessels in those with lightly pigmented (type I-II) skin. To determine whether pigmentary differences in the overlying epidermis influence this target specificity, we exposed both type I (fair) and type V (dark) normal human skin to varying radiant exposure doses over 1.5-μs pulse durations from the tunable dye laser at a wavelength of 577 nm. Using ultrastructural techniques, we found in type I skin that even clinical subthreshold laser exposures caused reproducible alterations of erythrocytes and adjacent dermal vascular endothelium without comparable damage to the overlying epidermis. In contrast, degenerated epidermal basal cells represented the predominant form of cellular damage after laser exposure of type V skin at comparable doses. We conclude that epidermal melanin and vascular hemoglobin are competing sites for 577 nm laser absorption and damage, and that the target specificity of the 577 nm tunable dye laser is therefore influenced by variations in epidermal pigmentation. This finding is relevant to the clinical application of the tunable dye laser in the ablative treatment of vascular lesions. We also found on ultrastructure that the presence of electron-lucent circular structures of approximately 800 Å in diameter were observed only at and above clinical threshold doses in those with type I skin and at the highest dose of 2.75 J/cm² in type V skin. It has been proposed that these structures might be heat-fixed molds of water vapor. Both this and ultrastructural changes of epidermal basal cells demonstrate mechanisms responsible for alteration of tissue after exposure to 577 nm, which are discussed.
- Subjects
MELANINS; PIGMENTS; DYE lasers; RADIATION; OXYHEMOGLOBIN; ERYTHROCYTES; ENDOTHELIUM
- Publication
Journal of Investigative Dermatology, 1987, Vol 88, Issue 6, p747
- ISSN
0022-202X
- Publication type
Article
- DOI
10.1111/1523-1747.ep12470418