Novel anti‐wrinkle effect of cosmeceutical product with new retinyl retinoate microsphere using biodegradable polymer

Kim, Hakhyun; Kim, M.; Quan, Ying‐Shu; Moon, Tae Chul; Mun, Je Ho; Cho, H.; Park, N.; Moon, W.; Lee, Keunwook; Lee, J.; Ryoo, H.; Jung, Hyungil

doi:10.1111/j.1600-0846.2011.00533.x

Cited by 10 publications

(8 citation statements)

References 18 publications

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“…Scanning electron microscope (SEM) image of PLA retinyl retinoate microspheres, mean diameter 12.87lm [60]. ment of the upper layers of the epidermis [65].…”

Section: Figure 12mentioning

confidence: 99%

“…In cosmetic applications, the use of PLA has been recently reported to encapsulate retinyl retinoate as an anti‐wrinkle treatment . Skin penetration studies revealed the PLA retinyl retinoate microspheres (Fig.…”

Section: Poly α‐Esters (Pga Pla Plga Pcl)mentioning

confidence: 99%

“…Scanning electron microscope ( SEM ) image of PLA retinyl retinoate microspheres, mean diameter 12.87μm .…”

Section: Poly α‐Esters (Pga Pla Plga Pcl)mentioning

confidence: 99%

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Biodegradable polymers as encapsulation materials for cosmetics and personal care markets

Ammala

2012

Intern J of Cosmetic Sci

157

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SynopsisThe topical and transdermal delivery of active cosmetic ingredients requires safe and non-toxic means of reaching the target sites without causing any irritation. Preservation of the active ingredients is also essential during formulation, storage and application of the final product. As many biologically active substances are not stable and sensitive to temperature, pH, light and oxidation, they require encapsulation to protect against unwanted degradation and also to target specific and controlled release of the active substance. The use of biodegradable polymers as encapsulation materials offers several advantages over other carrier materials. Encapsulation of active ingredients using biodegradable polymeric carriers can facilitate increased efficacy and bioavailability and they are also removed from the body via normal metabolic pathways. This article reviews current research on biodegradable polymers as carrier or encapsulation materials for cosmetic and personal care applications. Some of the challenges and limitations are also discussed. Examples of biodegradable polymers reviewed include polysaccharides, poly a-esters, polyalkylcyanoacrylates and polyamidoamine dendrimers. Ré suméL'administration topique et transdermique de principes actifs cosmétiques exige des moyens sû rs et non toxiques pour atteindre les sites cibles sans causer d' irritation. La préservation des ingrédients actifs est également essentielle au cours de la formulation, du stockage et de l'application du produit final. Étant donné que beaucoup de substances biologiquement actives ne sont pas stables et sensibles à la température, le pH, la lumière et l'oxydation, elles ont besoin d'encapsulation pour les protéger contre la dégradation indésirable et également de cibler la libération spécifique et contrôlée de la substance active. L'utilisation de polymères biodégrad-ables comme matériaux d'encapsulationoffre plusieurs avantages par rapport aux autres matériaux porteurs. L'encapsulation des ingrédients actifs à l'aide des supports polymères biodégradables peut faciliter l'augmentation de l'efficacité et de la biodisponibilité; ceux-cisont également éliminés de l'organisme par l'intermédiaire des voies métaboliques normales. Cet article passe en revue les recherches actuelles sur les polymères biodégradables comme matériaux de support ou d'encapsulation pour les cosmétiques et les applications de soins personnels. Les défis et les limites sont également discutés. Des exemples de polymères biodégradables passés en revue comprennent des polysaccharides, des poly-a-esters, des polyalkylcyanoacrylates et les polyamidoaminedendrimères.

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“…Scanning electron microscope (SEM) image of PLA retinyl retinoate microspheres, mean diameter 12.87lm [60]. ment of the upper layers of the epidermis [65].…”

Section: Figure 12mentioning

confidence: 99%

Section: Poly α‐Esters (Pga Pla Plga Pcl)mentioning

confidence: 99%

See 1 more Smart Citation

Biodegradable polymers as encapsulation materials for cosmetics and personal care markets

Ammala

2012

Intern J of Cosmetic Sci

157

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“…Egg album microspheres containing vitamin A were applied to prepare O/W creams, resulting in a prolonged release and higher bioavailability of that vitamin (Patavale and Mandawgade 2008). The use of polylactic acid has been recently reported to encapsulate retinyl retinoate as an antiwrinkle treatment (Kim et al 2012). Furthermore, the encapsulation and stabilization of ascorbic acid using poly(lactic-co-glycolic acid) (PLGA) nanoparticles, as well as PLGA microparticles to stabilize urea (used as moisturizing agent) and provide effective means of controlled release, has been described (Haddadi et al 2008).…”

Section: Encapsulating Structuresmentioning

confidence: 99%

Bacterial Polysaccharides: Production and Applications in Cosmetic Industry

2015

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“…Yaşlı derideki kırışıklıklar yüzeysel epidermiste olabildiği gibi, dermisteki kollajen veya elastin tahribatı nedeniyle de olabilmektedir 34 . Stratum corneum tabakasında bulunan intrasellüler lipitlerin cildin genç görünümünü sağlamadaki rolü büyüktür 10,19,35,36 . Yaşlanma karşıtı aktif bileşenler arasında; nemlendirici ve dolgunlaştırıcılar, hücre yenileyici ve onarıcılar, antioksidanlar, dermiste onarım sağlayan maddeler, kollajen sentezini uyararak deri elastikiyetini artıranlar ve fotoyaşlanmadan koruyanlar sayılabilir.…”

Section: Kollajen Ve Elastin Ile Bu Yapıları Destekleyen Bileşenlerunclassified

Anti-Aging Cosmetics Approaches and Components in Products

Yapar¹,

Tanrıverdi²

2016

BSBD

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Cilt yaşlanması; iç veya dış faktörlerin veya bunların birlikteliğinin neden olduğu karmaşık biyolojik bir süreçtir. Gelişen üretim teknolojileri, farmasötik taşıyıcı sistemlerin kozmetik formüllerinde kullanılması ve yenilikçi bileşenlere dayalı yeni nesil kozmetik ürünler, temel kozmetik bakımdan ileri alternatifler sunmaktadır. İleri teknoloji kullanılarak üretilen kozmetik aktif bileşenleri, doğal kaynaklı hammaddelerin kozmetik bileşenleri olarak kullanımının artması ve farmasötik taşıyıcı sistemlerin kozmetik formüllerinde kullanılması ile geliştirilen kozmetik ürünler toplumların artan kozmetik beklentilerini karşılamayı hedeflemektedir. Bu derlemede, günümüzde bireylerin dış ve iç faktörler ile artan cilt yaşlanmasının, kozmetik ürün odaklı çözümleri özellikle bileşenler açısından irdelenmiş, yaşlanma karşıtı farklı yaklaşımlar özetlenmiş ve kullanılan taşıyıcı sistemler belirtilmiştir.

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Novel anti‐wrinkle effect of cosmeceutical product with new retinyl retinoate microsphere using biodegradable polymer

Abstract: Retinyl retinoate has a potent anti-wrinkle activity, and the PLA-retinyl retinoate microsphere could be a useful cosmeceutical product for anti-aging purposes.

Cited by 10 publications

References 18 publications

Biodegradable polymers as encapsulation materials for cosmetics and personal care markets

Biodegradable polymers as encapsulation materials for cosmetics and personal care markets

Bacterial Polysaccharides: Production and Applications in Cosmetic Industry

Anti-Aging Cosmetics Approaches and Components in Products

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