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Size-dependent penetration of nanoemulsions into epidermis and hair follicles: implications for transdermal delivery and immunization.


ABSTRACT: Nanoemulsions have been widely applied to dermal and transdermal drug delivery. However, whether and to what depth the integral nanoemulsions can permeate into the skin is not fully understood. In this study, an environment-responsive dye, P4, was loaded into nanoemulsions to track the transdermal translocation of the nanocarriers, while coumarin-6 was embedded to represent the cargoes. Particle size has great effects on the transdermal transportation of nanoemulsions. Integral nanoemulsions with particle size of 80 nm can diffuse into but not penetrate the viable epidermis. Instead, these nanoemulsions can efficiently fill the whole hair follicle canals and reach as deep as 588 ?m underneath the dermal surfaces. The cargos are released from the nanoemulsions and diffuse into the surrounding dermal tissues. On the contrary, big nanoemulsions, with mean particle size of 500 nm, cannot penetrate the stratum corneum and can only migrate along the hair follicle canals. Nanoemulsions with median size, e.g. 200 nm, show moderate transdermal permeation effects among the three-size nanoemulsions. In addition, colocalization between nanoemulsions and immunofluorescence labeled antigen-presenting cells was observed in the epidermis and the hair follicles, implying possible capture of nanoemulsions by these cells. In conclusion, nanoemulsions are advantageous for transdermal delivery and potential in transcutaneous immunization.

SUBMITTER: Su R 

PROVIDER: S-EPMC5503527 | biostudies-literature | 2017 Jun

REPOSITORIES: biostudies-literature

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Size-dependent penetration of nanoemulsions into epidermis and hair follicles: implications for transdermal delivery and immunization.

Su Rui R   Fan Wufa W   Yu Qin Q   Dong Xiaochun X   Qi Jianping J   Zhu Quangang Q   Zhao Weili W   Wu Wei W   Chen Zhongjian Z   Li Ye Y   Lu Yi Y  

Oncotarget 20170601 24


Nanoemulsions have been widely applied to dermal and transdermal drug delivery. However, whether and to what depth the integral nanoemulsions can permeate into the skin is not fully understood. In this study, an environment-responsive dye, P4, was loaded into nanoemulsions to track the transdermal translocation of the nanocarriers, while coumarin-6 was embedded to represent the cargoes. Particle size has great effects on the transdermal transportation of nanoemulsions. Integral nanoemulsions wit  ...[more]

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