Ravnbak Mette Henriksen
Department of Dermatology D92, Bispebjerg Hospital, Bispebjerg Bakke 23, DK-2400 Copenhagen NV, Denmark.
Dan Med Bull. 2010 Aug;57(8):B4153.
The overall aim of this Ph.D. project was to clarify what the subjective Fitzpatrick skin type represents with regard to the skin's reaction to UVR. Fitzpatrick skin type is used as an expression of the constitutive UV-sensitivity. It has been used for guiding dose-levels in phototherapy and is an important risk factor for skin cancer. The subjective Fitzpatrick skin type and the measured skin type PPF (pigment protection factor, calculated based on a skin reflectance measurement, predicts the UV-dose (SED) to give 1 MED) were investigated parallelly in relation to the clinically determined dose to erythema (MED) and/or pigmentation (MMD) to determine which one related best. PPF is an established method for assessing UV-sensitivity by predicting SED to MED. UV-dose to MED and/or MMD was determined after single UV-exposure to Solar Simulator on nates (n= 84) and after single and multiple (5, 6 or 12) UV-exposures (n = 24-62) on the back to four UV-sources (nUVB, Solar, bUVA and UVA1). SED to MMD was also related to wavelength. MED was only determined after a single and four UV-exposures to narrowband UVB (nUVB) and Solar Simulator (Solar). Volunteers with a broad range of constitutive pigmentation (skin types I-V) were included. Equal MMD doses (predetermined after a single UV-exposure) were used at the multiple exposures. The absolute increase in pigmentation after 6 and 12 UV-exposures, where steady-state pigmentation was reached, was independent of skin type and therefore could not enter into the calculations. But it proved that the MMD determinations after single exposure were correct and could be used at multiple UV-exposures. In contrary to what we expected, our results indicate that people may refer to the constitutive pigmentation, when they reply to the question of Fitzpatrick skin type. This applied to both erythema and pigmentation response as both dose to MED and MMD showed a better correlation to nates than to the back. As expected, our results from the back indicate that people seem to refer to sun sensitivity after multiple exposures to the sun rather than a single sun exposure, when they reply to the question of Fitzpatrick skin type. Hence, both SED to MED and SED to MMD are better correlated to skin type after respectively 4 and 5 exposures to Solar Simulator and nUVB compared to 1 exposure. Only when tanning is preceded by erythema there is a relation between SED to MMD and skin type/PPF. Thus only after nUVB and Solar. For nUVB and Solar there was a linear relation between erythema and tanning ability with the intercept different from zero. In spite of what we expected based on the literature, the correlation was better between SED to MED and skin type than between SED to MMD and skin type. This applied to single and multiple exposures and to single calculations and multiple regression analyses. The long-waved UVA1 and broadband UVA should definitely not be used for skin type determination, as there was no relation between MMD and skin type/PPF. Both nUVB and Solar can be considered. Finally, based on the objective parameters: pre-exposure pigmentation measured by skin reflectance, MED and MMD we tried to predict the Fitzpatrick skin type by multinominal logistic regression analyses to evaluate the significance of the different parameters for the subjective skin type classification and thereby hopefully enlighten what Fitzpatrick skin type represents. For single UV-exposure only the pre-exposure pigmentation worked as a predictor of Fitzpatrick skin type, and that is what PPF is based on. When this parameter was removed, only SED to MED was significant. Our model succeeds better to classify people correct after multiple UV-exposure compared to a single UV-exposure. PPF was predicted likewise and was highly correlated to SED to MED, as expected, and even higher correlated to Fitzpatrick skin type. SED to MMD was not significant. This study confirms that Fitzpatrick skin type is an unreliable predictor of UV-sensitivity with regard to MED- and MMD test. Fitzpatrick skin type in epidemiological context (risk for skin cancer) stands for burns and ability to tan may represent "cumulative" dose. SED to MED is equivalent to burns. PPF may also indirectly represent cumulative dose--the less pigmented the skin the more UVR penetrates the epidermis and will be able to accumulate and induce skin cancer. Our results indicate that Fitzpatrick skin type predominantly is determined by the skin pigmentation and that the second most important objective parameter is SED to MED (and not SED to MMD). This explains why Fitzpatrick skin type, eventhough being an unreliable predictor of UV-sensitivity, still plays an important role in epidemiology with regard to estimation of risk of skin cancer. This study showed that PPF can predict the UV-sensitivity also with regard to the tanning ability (MMD), can be applied to multiple UV-exposures and to a broader pigmentation spectrum. PPF is preferred to predict the individual UV-sensitivity rather than the subjective Fitzpatrick skin type, confirmed for both nates and back, single as well as repetitive UV-exposures. It should therefore be considered to concentrate on skin reflectance measurements.
本博士项目的总体目标是阐明主观的菲茨帕特里克皮肤类型在皮肤对紫外线反应方面所代表的意义。菲茨帕特里克皮肤类型被用作固有紫外线敏感性的一种表达。它已被用于指导光疗中的剂量水平,并且是皮肤癌的一个重要风险因素。将主观的菲茨帕特里克皮肤类型与通过皮肤反射率测量计算得出的测量皮肤类型PPF(色素保护因子,可预测产生1个最小红斑量的紫外线剂量(SED))与临床确定的红斑剂量(MED)和/或色素沉着剂量(MMD)并行进行研究,以确定哪一个相关性最佳。PPF是一种通过预测达到MED的SED来评估紫外线敏感性的既定方法。在对84名受试者的臀部单次暴露于太阳模拟器后,以及对24 - 62名受试者的背部单次和多次(5、6或12次)暴露于四种紫外线源(窄谱中波紫外线(nUVB)、太阳模拟器、宽谱长波紫外线(bUVA)和UVA1)后,确定达到MED和/或MMD的紫外线剂量。达到MMD的SED也与波长相关。仅在对窄谱中波紫外线(nUVB)和太阳模拟器(太阳)进行单次和四次紫外线暴露后确定MED。纳入了具有广泛固有色素沉着(皮肤类型I - V)的志愿者。在多次暴露时使用单次紫外线暴露后预先确定的相等MMD剂量。在达到稳态色素沉着的6次和12次紫外线暴露后,色素沉着的绝对增加与皮肤类型无关,因此无法纳入计算。但事实证明,单次暴露后的MMD测定是正确的,并且可用于多次紫外线暴露。与我们的预期相反,我们的结果表明,人们在回答菲茨帕特里克皮肤类型问题时可能参考的是固有色素沉着。这适用于红斑和色素沉着反应,因为达到MED和MMD的剂量与臀部的相关性均优于与背部的相关性。正如预期的那样,我们背部的结果表明,人们在回答菲茨帕特里克皮肤类型问题时,似乎参考的是多次暴露于阳光下后的日晒敏感性,而不是单次日晒暴露。因此,与1次暴露相比,在分别对太阳模拟器和nUVB进行4次和5次暴露后,达到MED的SED和达到MMD的SED与皮肤类型的相关性更好。只有当晒黑之前出现红斑时,达到MMD的SED与皮肤类型/PPF之间才存在关系。因此仅在nUVB和太阳模拟器照射后如此。对于nUVB和太阳模拟器,红斑与晒黑能力之间存在线性关系,且截距不为零。尽管基于文献我们有预期,但达到MED的SED与皮肤类型之间的相关性优于达到MMD的SED与皮肤类型之间的相关性。这适用于单次和多次暴露以及单次计算和多元回归分析。长波UVA1和宽谱UVA绝对不应被用于确定皮肤类型,因为MMD与皮肤类型/PPF之间没有关系。nUVB和太阳模拟器均可考虑。最后,基于客观参数:通过皮肤反射率测量的暴露前色素沉着、MED和MMD,我们尝试通过多项逻辑回归分析预测菲茨帕特里克皮肤类型,以评估不同参数对主观皮肤类型分类的意义,从而有望阐明菲茨帕特里克皮肤类型所代表的含义。对于单次紫外线暴露,仅暴露前色素沉着可作为菲茨帕特里克皮肤类型的预测指标,而这正是PPF所基于的。当去除该参数后,只有达到MED的SED具有显著性。与单次紫外线暴露相比,我们的模型在多次紫外线暴露后能更好地正确分类人群。同样预测了PPF,并且如预期的那样,它与达到MED的SED高度相关,甚至与菲茨帕特里克皮肤类型的相关性更高。达到MMD的SED不具有显著性。这项研究证实,就MED和MMD测试而言,菲茨帕特里克皮肤类型是紫外线敏感性的不可靠预测指标。在流行病学背景下(皮肤癌风险),菲茨帕特里克皮肤类型代表晒伤,而晒黑能力可能代表“累积”剂量。达到MED的SED等同于晒伤。PPF也可能间接代表累积剂量——皮肤色素沉着越少,紫外线穿透表皮的量就越多,并且能够积累并诱发皮肤癌。我们的结果表明,菲茨帕特里克皮肤类型主要由皮肤色素沉着决定,第二重要的客观参数是达到MED的SED(而非达到MMD的SED)。这解释了为什么菲茨帕特里克皮肤类型尽管是紫外线敏感性的不可靠预测指标,但在皮肤癌风险评估的流行病学中仍发挥着重要作用。这项研究表明,PPF在晒黑能力(MMD)方面也能预测紫外线敏感性,可应用于多次紫外线暴露以及更广泛的色素沉着谱。无论是对于臀部还是背部,单次以及重复紫外线暴露,PPF都比主观的菲茨帕特里克皮肤类型更适合预测个体的紫外线敏感性。因此,应该考虑专注于皮肤反射率测量。
