Abstract
Microneedles are one promising penetration enhancement vehicle to overcome the stratum corneum skin barrier, which hampers the penetration of drug nanocrystals by transdermal delivery. In order to clarify the particle size effect of nanocrystals on transdermal delivery, 60 nm, 120 nm, and 480 nm curcumin nanocrystals were fabricated and incorporated into dissolving hyaluronic acid polysaccharide microneedles. The microneedles showed good mechanical strength with 1.4 N/needle, possessing the ability to insert into the skin. The passive permeation results showed that the smaller particle size of 60 nm curcumin nanocrystals diffused faster and deeper than the larger 120 nm and 480 nm curcumin nanocrystals with size-dependent diffusion behaviors. Thereafter, higher concentration gradients and overlap diffusional coronas also formed in the skin layers by the smaller-particle-size nanocrystals. Furthermore, the diffusion rate of the smaller particle size of curcumin nanocrystals to the hair follicle was also higher than that of the larger curcumin nanocrystals. In conclusion, the particle sizes of curcumin nanocrystals influenced the transdermal and transfollicular penetration in deeper skin layers
Highlights
Skin is mainly composed by the stratum corneum (SC), epidermis, dermis, and hypodermis layers
CUR-NCs had a spherical morphology photographed by SEM (Figure 1c), and the sizes of NCs were comparable to the particle size measurement results
CUR-NCs had a spherical morphology photographed by SEM (Figure3 of1c), and the sizes of NCs were comparable to the particle size measurement results
Summary
Skin is mainly composed by the stratum corneum (SC), epidermis, dermis, and hypodermis layers. Transdermal delivery offers an attractive route for local and systemic drug delivery. Due to the skin barrier, the skin penetration of poorly soluble drugs has been hindered [1]. Small molecules (
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