PURPOSE

Topical treatment of various skin disorders requires drug absorption and penetration through the stratum corneum (SC) into the epidermis and dermis tissues. The use of nano-drug delivery systems including liposomes and lipid nanoparticles (SLNs) have been shown to facilitate SC penetration. The goal of this work was to study the impact of liposome sizes and the resulted drug distribution inside various skin tissue.

METHODS

All trans retinoic acid (ATRA) was used as the model drug and loaded into gel phase HSPC/CHOL/DSPE-PEG liposomes (lipo-ATRA) with sizes ranging from 80 nm to more than 300 nm. The percutaneous drug absorption process was monitored and analyzed.

RESULTS

There were significant differences in percutaneous absorption and tissue distribution resulted from liposomes smaller than 100 nm and those bigger than 200 nm. Lipo-ATRA with a mean diameter of 83 nm can deliver the content to epidermis and dermis. But for 200 nm - 300 nm liposomes, the resulted epidermis and dermis ATRA levels were less than about one third, suggesting bigger liposomes had poor penetration through the brick and mortar structure of SC.

CONCLUSIONS

Gel phase liposomes with sizes under 100 nm improved encapsulated drug absorption and distribution into the epidermis and dermis tissues. A size dependent mechanism for liposome penetration of the stratum corneum was proposed.