Rat Skin을 이용한 양극성 분획 고주파장비와 CO2 레이저조사 후 열손상과 창상회복에 대한 조직학적 비교

Abstract

Background: Several studies have described the use of bipolar fractional radiofrequency (FRF) treatment not only to reverse aging or restore photo-damaged skin but also to treat acne and acne-related scarring with a low downtime and few potential complications. However, few histological studies have been conducted to identify the precise mechanism responsible for the success of bipolar FRF treatment. Objective: To compare thermal tissue damage and wound repair after exposure to bipolar FRF and ablative CO2 laser treatment. Methods: We irradiated the skin of an albino rat (Sprague-Dawley, 200∼250 g) using a CO2 laser and a bipolar FRF device. Biopsy specimens of the irradiated skin were collected on the first, third and fourteenth day after treatment. For histological analysis, the skin samples were stained with hematoxylin and eosin, Masson’s trichrome, and Verhoeff-van Gieson stain. Results: Immediately after bipolar FRF treatment, the skin samples showed coagulated columns in the dermis forming a pyramidal zone of sublative thermal injury. Three days after treatment, they showed re-epithelialization with minimal crust formation. Compared to the ablative CO2 laser, bipolar FRF treatment showed lower epidermal disruption and more extensive dermal remodeling, with a rapid tissue repair response to the damage. Conclusion: With bipolar FRF treatment, wound repair is rapid with minimal recovery time and pigmentary complications. The bulk impact of coagulation and residual heating occurring deep within the dermis causes significant collagen contracture and remodeling, leading to effective improvement in skin texture and wrinkles, acne scars, and dyschromia in all skin types.