| Autor: |
Spörri, S., Frenz, M., Altermatt, H., Hannigan, E., Dreher, E., Spörri, S, Altermatt, H J, Hannigan, E V |
| Zdroj: |
Archives of Gynecology & Obstetrics; 1996, Vol. 259 Issue 1, p25-35, 11p |
| Abstrakt: |
The CO2-laser has a successful record in treatment of extensive, refractory vulvar condylomas and vulvar intraepithelial neoplasia. A prerequisite for optimal use of the laser is careful preoperative diagnosis and optimized surgical technique based upon the exact knowledge of the interaction process between laser radiation and tissue. Using a new CO2-laser scanning device, the Sharplan Swift-Lase, this in-vivo study analyses the effects of CO2-laser parameters [average power density (PD), beam size and exposure time] on vulvar skin to determine optimum laser settings. Our histomorphometric analyses reveal a minimal skin destruction (ablation depth 40 microns, extent of irreversible thermal damage 80 microns to 120 microns) after application of the CO2-laser energy with the SwiftLase using a PD of 1000 W/cm2 with a beam size of 1 mm diameter. Previous CO2-laser application techniques required low PD (200 W/cm2 to 750 W/cm2) and a larger beam size (1.5 mm to 2 mm) moving over the epithelial surface as fast as possible to obtain a precise skin destruction. The SwiftLase allows the laser beam to be moved slowly with a beam size of 1 mm and significantly higher PD (up to 5000 W/cm2). These advantageous application conditions guarantee precise, homogeneous vulvar skin treatments with minimal thermal damage to the surrounding normal skin. The SwiftLase enables a less experienced colposcopists to perform vulvar CO2-laser surgery. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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