Kamat B R, Tang S V, Arndt K A, Stern R S, Noe J M, Rosen S
J Invest Dermatol. 1985 Sep;85(3):274-8. doi: 10.1111/1523-1747.ep12276758.
The interaction of normal human skin with low-fluence CO2 laser irradiation was studied using a three-phase approach. In phase one, freshly excised skin was observed immediately after impact. In phase two, skin irradiated 2 h prior to excision was studied. In phase three, human volunteers were irradiated and biopsied at time zero, 24 h and 48 h. Seventy-five sites were exposed and 60 biopsies were performed. The earliest histologic changes were observed in the 6-10 J/cm2 fluence (radiant exposure) range and these changes included spindle and vacuolar changes in the basal layer of the epidermis. Papillary dermal coagulation was present to a maximum of 0.03 mm. At fluences of 10-25 J/cm2, superficial dermal necrosis (0.06-0.08 mm) was observed. At fluences above 25 J/cm2, transepidermal necrosis was present with increasing papillary dermal necrosis that was in proportion to the energy density delivered. At 2h, basal vacuolar changes were accompanied by diffuse keratinocytic cell death where contact was maintained between the epidermis and dermis, while where separation occurred limited keratinocytic death was observed. The earliest changes occurred at lower threshold fluences (4-6 J/cm2). After 24 h, these doses resulted in extensive epidermal necrosis with focal acute inflammatory infiltrates. At 48 h, the degree of epidermal "slough" was proportional to the energy density delivered and was maximal with a fluence of 5.7 J/cm2 delivered whereas with a fluence of 3.8 J/cm2 thin slough (0.02 mm) was observed. These findings suggest that low-dose CO2 laser irradiation may provide a new approach to selectively damage the epidermis with minimal dermal damage.
采用三阶段方法研究了低能量密度二氧化碳激光照射对正常人体皮肤的作用。第一阶段,在照射后立即观察新鲜切除的皮肤。第二阶段,研究在切除前2小时照射的皮肤。第三阶段,对人体志愿者在照射后即刻、24小时和48小时进行活检。共照射75个部位,进行60次活检。最早的组织学变化出现在能量密度为6-10J/cm²(辐射暴露)范围内,这些变化包括表皮基底层的梭形和空泡样改变。乳头层真皮凝固最大深度为0.03mm。在能量密度为10-25J/cm²时,观察到浅表真皮坏死(0.06-0.08mm)。在能量密度高于25J/cm²时,出现经表皮坏死,乳头层真皮坏死增加,且与传递的能量密度成比例。在2小时时,基底层空泡样改变伴有弥漫性角质形成细胞死亡,此时表皮与真皮保持接触,而在发生分离的部位观察到有限的角质形成细胞死亡。最早的变化发生在较低的阈值能量密度(4-6J/cm²)。24小时后,这些剂量导致广泛的表皮坏死,并伴有局灶性急性炎症浸润。在48小时时,表皮“脱落”程度与传递的能量密度成比例,在能量密度为5.7J/cm²时达到最大,而在能量密度为3.8J/cm²时观察到薄的脱落(0.02mm)。这些发现表明,低剂量二氧化碳激光照射可能为选择性损伤表皮同时使真皮损伤最小化提供一种新方法。
