在室外太阳条件下，广谱防晒霜对UVA的次优衰减导致了终身UVA负担。

Photodermatology Pub Date : 2020-01-01 Epub Date: 2019-09-16 DOI:10.1111/phpp.12503

Sergio G Coelho, Diego Rua, Sharon A Miller, Anant Agrawal

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引用次数: 0

摘要

背景：广谱防晒霜的防晒系数（SPF）为15或更高，如果与其他防晒措施一起使用，可以降低因阳光引起的皮肤癌和早期皮肤老化的风险。为了确定防晒产品的性能是否会在阳光照射下受到影响，并测试在UVA光谱上防护的光谱均匀性，我们测试了含有多种活性药物成分（api）和多种剂型的广谱防晒霜。方法：对32种含有有机或无机原料药的防晒药品进行横断面市场调查，检测spf值分别为15、30、50和70。2017年6月至9月期间，在马里兰州银泉市通过自然阳光照射紫外线剂量。结果：在32种防晒药品中，6种产品在太阳照射下不符合其广谱要求。根据FDA加强防晒霜广谱要求的新提案，基于UVA1(340-400 nm)/UV （290-400 nm）平均防晒霜吸光度的光谱均匀性表明，约40%的防晒霜产品的UVA防护效果不理想。结论：美国消费者在选择具有相同SPF值的类似标签的广谱防晒霜产品时，可能会在不知情的情况下多接收多达36%的UVA。FDA的新提案可能有助于减少消费者终生的UVA负担。有关防晒霜性能的光谱吸收数据可用于进一步改善产品的广谱防护与SPF值的耦合，从而使消费者提高紫外线防护的比例。

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Suboptimal UVA attenuation by broad spectrum sunscreens under outdoor solar conditions contributes to lifetime UVA burden.

Background: Broad spectrum sunscreens with a sun protection factor (SPF) of 15 or greater are indicated to decrease the risk of skin cancer and early skin aging caused by the sun if used as directed with other sun protection measures. To determine whether sunscreen product performance is compromised under solar exposure and to test spectral uniformity of protection across the UVA spectrum, we tested broad spectrum sunscreens with a variety of active pharmaceutical ingredients (APIs) and in a variety of dosage forms.

Methods: A cross-sectional market survey of 32 sunscreen drug products containing either organic or inorganic APIs with SPFs of 15, 30, 50, and 70 was tested. UV doses were delivered via natural sun in Silver Spring, Maryland between June and September of 2017.

Results: Of the 32 sunscreen drug products, 6 products failed to meet their broad spectrum claim under solar exposure. Using FDA's new proposal to strengthen sunscreen broad spectrum requirements, spectral uniformity based on the mean sunscreen absorbance of UVA1(340-400 nm)/UV (290-400 nm) indicated that ~40% of sunscreen drug products tested had suboptimal UVA protection.

Conclusion: US consumers may unknowingly be receiving up to 36% more transmitted UVA when selecting between similarly labeled broad spectrum sunscreen drug products with equivalent SPF values. FDA's new proposal may help decrease consumers' overall lifetime UVA burden. Spectral absorbance data on sunscreen performance can be used to further improve the coupling of broad spectrum protection to a product's SPF value so that consumers have improved proportional increases in UV protection.

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Photodermatology

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