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ローズマリーの自然な力が SPF を高め、老化を防ぎます



ジャーナルに掲載された研究 化粧品 天然の抗酸化物質であるロスマリン酸を、従来の UV フィルターであるメトキシケイ皮酸エチルヘキシル (UVB 保護) およびアボベンゾン (UVA 保護) と一緒に日焼け止めに添加すると、日焼け止めの光保護効果が高まることがわかりました。 わずか 0.1% のロスマリン酸を組み込むことで、有効成分のレベルを上げることなく日焼け止めの性能が向上し、保護に必要な日焼け止めの量と環境に放出される合成化学物質の量が減少しました。 インビトロおよび臨床試験では、日焼け防止指数 (SPF) が 41% 増加したことが示されました。 ロスマリン酸を配合することで抗酸化作用も加わり、アンチエイジング化粧品に適しています。

ロズマリン酸の添加[{” attribute=””>acid at a mere 0.1% reduced the amount of sunscreen needed to protect the skin, increased the sun protection factor by more than 41% and combined photoprotection with antioxidant activity.

An article published in the journal Cosmetics reports an investigation of the effects of including rosmarinic acid, an active antioxidant, in a sunscreen along with two conventional ultraviolet light filters, ethylhexyl methoxycinnamate (against UVB) and avobenzone (against UVA).

The research group increased the sunscreen’s photoprotective efficacy by adding rosmarinic acid at 0.1%, a very small proportion compared with those of conventional UV filters. They believe their findings suggest that incorporating natural molecules with antioxidant activities into sunscreens could decrease the proportion of conventional UV filters in the final product, with the advantage of providing other functional properties.

The product’s performance improved without the need to increase active principle levels, reducing both the amount of sunscreen needed to protect the same skin area and the volume of synthetic chemicals discharged into the environment.

In vitro and clinical trials obtained a 41% increase in sun protection factor (SPF). The higher the SPF, the more sunburn protection increases.

Another advantage of including rosmarinic acid was the addition of antioxidant activity to photoprotection so that the product could be used in antiaging cosmetics, for example.

“Our research on photoprotective systems aims primarily to evaluate potential sunscreen enhancement strategies. We’re interested above all in discovering ways to increase sunburn protection while also improving the stability of the product so that it remains safe and effective for longer,” said pharmaceutical scientist and biochemist André Rolim Baby, last author of the article and a professor at the University of São Paulo’s School of Pharmaceutical Sciences (FCF-USP) in Brazil.

“We’re also looking for products or systems with less environmental impact and ways of reducing the concentration of conventional filters by including natural ingredients that enhance the formulation. And we’re very interested in mapping other cosmetic properties of photoprotective molecules, such as anti-free radical action and protection of biomarkers in the outermost skin layers.”

Multifunctional compound

The investigation was part of a project supported by FAPESP to map chemopreventive properties of various UV filters.

In addition to being an antioxidant, rosmarinic acid, a natural polyphenol antioxidant found in rosemary, as well as sage, peppermint, and many other herbal plants, has antiviral, anti-inflammatory, immunomodulatory, antibiotic, and anticancer properties.

In a review article published in 2022 in the journal Nutrients, the research group highlighted the beneficial effects of rosmarinic acid as a food supplement, such as improvement in skin firmness and wrinkle reduction.

“In another investigation, we found potential benefits of rosmarinic acid for skin surface hydration, reinforcing the need for more research on the substance in the field of cosmetology,” Baby said.

Reference: “Photoprotective Efficacy of the Association of Rosmarinic Acid 0.1% with Ethylhexyl Methoxycinnamate and Avobenzone” by Maíra de Oliveira Bispo, Ana Lucía Morocho-Jácome, Cassiano Carlos Escudeiro, Renata Miliani Martinez, Claudinéia Aparecida Sales de Oliveira Pinto, Catarina Rosado, Maria Valéria Robles Velasco and André Rolim Baby, 6 January 2023, Cosmetics.
DOI: 10.3390/cosmetics10010011

In the study reported in Cosmetics, SPF and critical wavelength were measured to establish photoprotective efficacy using a Labsphere UV2000S Ultraviolet Transmittance Analyzer purchased with funding from FAPESP.

The other authors of the article are Maíra de Oliveira Bispo, Ana Lucia Morocho-Jácome, Renata Miliani Martinez, Claudinéia Aparecida Sales de Oliveira Pinto and Maria Valéria Robles Velasco, all affiliated with USP; Cassiano Carlos Escudeiro of IPclin, a private laboratory located in Jundiaí, São Paulo state; and Catarina Rosado of the Lusophone University of Humanities and Technology’s School of Health Sciences (ECTS-ULHT) in Lisbon, Portugal.


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