Drug Delivery (Jan 2017)

Novel reverse electrodialysis-driven iontophoretic system for topical and transdermal delivery of poorly permeable therapeutic agents

  • Ki-Taek Kim,
  • Joon Lee,
  • Min-Hwan Kim,
  • Ju-Hwan Park,
  • Jae-Young Lee,
  • Joo-Hyun Song,
  • Minwoong Jung,
  • Myoung-Hoon Jang,
  • Hyun-Jong Cho,
  • In-Soo Yoon,
  • Dae-Duk Kim

DOI
https://doi.org/10.1080/10717544.2017.1367975
Journal volume & issue
Vol. 24, no. 1
pp. 1204 – 1215

Abstract

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Topical and transdermal drug delivery has great potential in non-invasive and non-oral administration of poorly bioavailable therapeutic agents. However, due to the barrier function of the stratum corneum, the drugs that can be clinically feasible candidates for topical and transdermal delivery have been limited to small-sized lipophilic molecules. Previously, we fabricated a novel iontophoretic system using reverse electrodialysis (RED) technology (RED system). However, no study has demonstrated its utility in topical and/or transdermal delivery of poorly permeable therapeutic agents. In this study, we report the topical delivery of fluorescein isothiocyanate (FITC)–hyaluronic acid (FITC–HA) and vitamin C and the transdermal delivery of lopinavir using our newly developed RED system in the in vitro hairless mouse skin and in vivo Sprague–Dawley rat models. The RED system significantly enhanced the efficiency of topical HA and vitamin C and transdermal lopinavir delivery. Moreover, the efficiency and safety of transdermal delivery using the RED system were comparable with those of a commercial ketoprofen patch formulation. Thus, the RED system can be a potential topical and transdermal delivery system for various poorly bioavailable pharmaceuticals including HA, vitamin C, and lopinavir.

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