Abstract
A growing number of skin laser treatments have rapidly evolved and increased their role in the field of dermatology, laser treatment is considered to be used for a variety of pigmentary dermatosis as well as aesthetic problems. The standardized assessment of laser treatment efficacy is crucial for the interpretation and comparison of studies related to laser treatment of skin disorders. In this study, we propose an evaluation method to quantitatively assess laser treatment efficacy based on the image segmentation technology. A tattoo model of Sprague Dawley (SD) rats was established and treated by picosecond laser treatments at varying energy levels. Images of the tattoo models were captured before and after laser treatment, and feature extraction was conducted to quantify the tattooed area and pigment gradation. Subsequently, the clearance rate, which has been a standardized parameter, was calculated. The results indicate that the clearance rates obtained through this quantitative algorithm are comparable and exhibit smaller standard deviations compared with scale scores (4.59% versus 7.93% in the low-energy group, 4.01% versus 9.05% in the medium-energy group, and 4.29% versus 10.23% in the high-energy group). This underscores the greater accuracy, objectivity, and reproducibility in assessing treatment responses. The quantitative evaluation of pigment removal holds promise for facilitating faster and more robust assessments in research and development. Additionally, it may enable the optimization of treatments tailored to individual patients, thereby contributing to more effective and personalized dermatological care.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call