Storage Conditions of Skin Affect Tissue Structure and Subsequent in vitro Percutaneous Penetration

Abstract

Storage of skin at low temperatures may affect its structure. There is no report in the literature on the correlation between spatially resolved skin structure and percutaneous penetration after different storage conditions. The present study applies imaging techniques (multiphoton excitation fluorescence microscopy) and in vitro percutaneous penetration of caffeine under four different storage conditions using skin samples from the same donors: fresh skin, skin kept at –20°C for 3 weeks (with or without the use of polyethylene glycol) and at –80°C. Our results show a correlation between increasing permeation of caffeine and tissue structural damage caused by the storage conditions, most so after skin storage at –80°C. The presented approach, which combines imaging techniques with studies on percutaneous penetration, enables the link between tissue damage at selected depths and penetration into the upper layers of the epidermis to be investigated.