Transdermal diffusion of xenon from lipophilic solution of capric triglyceride and from water

Abstract

Aim: The purpose of the study was to characterize transdermal delivery of xenon through rat skin from a lipophilic solution and from water. Methods: Sections of skin were obtained from adult rats (n=12) and were placed into static Franz diffusion cells for 24 h. Xenon diffusion coefficients were determined for diffusion from a lipophilic solution (n=6) and from water (n=6) to phosphate buffered saline (PBS) through skin and for diffusion from a lipophilic solution to PBS through a phase boundary in the absence of skin (n=6). Results: Xenon flux (JXe) through skin from the lipophilic solution was 0.036 mg/hour×cm2 and permeability coefficient (Kp) was 0.003 cm/h; JXe through skin from water was 0.029 mg/h×cm2 and the Kp was 0.002 cm/h. Total time for xenon diffusion through skin from lipophilic solution and from water was ~2 h. Conclusion: The study presents the first characterization of xenon diffusion through rat skin from multiphase solutions to PBS. These data may be useful for the development of xenon-rich pharmaceutical products for external use.