Japan Cosmetic Industry Association, Tokyo, Japan.
Shiseido Global Innovation Center, Yokohama, Japan.
Photodermatol Photoimmunol Photomed. 2022 May;38(3):259-265. doi: 10.1111/phpp.12747. Epub 2021 Nov 4.
Sun protection factor (SPF) and UVA protection factor (UVAPF) are performance indicators consumers recognize for UV protective cosmetics such as sunscreens. However, on-site application density affects actual UV protection, despite these indicators. To understand actual UV protection better, a more reliable manner is needed to verify application density for further discussion of photoprotection efficacy regarding public health.
To estimate the UV protective efficacy of sunscreen in actual use based on the application density of UV protective cosmetics and the analysis of UV protective effect modulated by application density.
The subjects applied the SPF-labeled sunscreens as usual. We measured the application amount and area including any amount on their hands to calculate the average application density on the face. Also, sunscreens were applied at densities of 0.5, 1.0, and 2.0 mg/cm . The SPF values were measured at each application site to evaluate the effect of application density on photoprotection efficacy.
We established a method of measuring application density utilizing three-dimensional photograph analysis. The median application density of the sunscreen applied in actual use was 1.33 mg/cm . The measured SPF values decreased in association with the decreased application density of sunscreens. Based on the estimate assuming the first-order correlation, the SPF value required to get the protective effect equivalent to a sunscreen with SPF 15, 30, or 50 at 2 mg/cm was calculated to be 23.8, 47.5, and 79.2, respectively, with the application density of 1.33 mg/cm .
We demonstrated a reasonable procedure for estimating the photoprotection efficacy of sunscreens on the face. A suggestion was made to consider the application density for further discussion of photoprotection among consumers, especially for the long term with respect to public health.
防晒因子(SPF)和紫外线 A 防护因子(UVAPF)是消费者认可的防晒化妆品(如防晒霜)的性能指标。然而,尽管有这些指标,但现场应用密度会影响实际的紫外线防护。为了更好地了解实际的紫外线防护,需要一种更可靠的方法来验证应用密度,以便进一步讨论与公共健康相关的光保护效果。
根据紫外线防护化妆品的应用密度和应用密度调制的紫外线防护效果分析,估算防晒霜的实际使用中的紫外线防护效果。
受试者如常使用标有 SPF 的防晒霜。我们测量包括手上任何量的用量和面积,以计算面部的平均应用密度。此外,防晒霜的应用密度分别为 0.5、1.0 和 2.0mg/cm。在每个应用部位测量 SPF 值,以评估应用密度对光保护效果的影响。
我们建立了一种利用三维照片分析测量应用密度的方法。实际使用中防晒霜的平均应用密度为 1.33mg/cm。测量的 SPF 值随防晒霜应用密度的降低而降低。根据假设一阶相关的估计,计算得出,在 1.33mg/cm的应用密度下,要达到与 SPF15、30 或 50 的防晒霜等效的防护效果,所需的 SPF 值分别为 23.8、47.5 和 79.2。
我们展示了一种合理的方法来估计防晒霜在面部的光保护效果。建议考虑应用密度,以便进一步讨论消费者的光保护效果,特别是从公共卫生的长远角度来看。