经皮失水
角质层
红斑
皮肤病科
敏感皮肤
紫外线辐射
皮肤屏障
皮肤老化
紫外线
人体皮肤
势垒函数
渗透(战争)
化学
医学
病理
材料科学
生物
光电子学
运筹学
放射化学
工程类
遗传学
细胞生物学
作者
Min Ah Kim,Yu Chul Jung,Byung‐Fhy Suh,Han Na Lee,Eunjoo Kim
摘要
The levels of burning susceptibility to ultraviolet (UV) radiations are affected by various factors, including Fitzpatrick skin types, skin color, sex, and ethnicity. However, studies on the relationship between skin biophysical properties and erythemal responses to UV radiations are rare.This study aimed to investigate biophysical properties of the skin that determined individual skin sensitivity to UV radiation.As an indicator of skin sensitivity to UV radiation, Korean women were subjected to minimal erythema dose (MED) testing. The skin biophysical properties, such as skin hydration, transepidermal water loss (TEWL), were measured. MED were also evaluated in further variations in the skin, including barrier disruption.A significant negative correlation was observed between TEWL and MED. With an increase in TEWL, that represents reduced skin barrier function, skin UV sensitivity also increased. Artificial alteration of skin conditions also changed erythemal response to UV radiation. When the skin barrier was disrupted, MED significantly decreased, indicating increased skin UV sensitivity. It is hypothesized that the altered penetration of UV radiation into the stratum corneum under the respective skin conditions caused different erythema reactions.For the first time in a clinical study, the skin biophysical properties, including skin barrier function, were found to have significant effects on skin sensitivity to UV radiation. This finding could help predict individual susceptibility to UV damage. Therefore, skincare products that improve skin conditions associated with UV sensitivity, as well as sunscreen are important for protection against the hazards of UV radiation.
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