Iontophoretic transport of oligonucleotides across human epidermal membrane: A study of the Nernst–Planck model

The objective of this study was to investigate the transport behavior of a series of oligonucleotides with human epidermal membrane (HEM) and to examine the applicability of the modified NERNST–PLANCK model to transdermal iontophoresis of these macromolecules. Iontophoretic transport experiments wer...

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Published inJournal of pharmaceutical sciences Vol. 90; no. 7; pp. 915 - 931
Main Authors Li, S.Kevin, Ghanem, Abdel‐Halim, Teng, Ching‐Leou, Hardee, Gregory E., Higuchi, William I.
Format Journal Article
LanguageEnglish
Published New York Elsevier Inc 01.07.2001
John Wiley & Sons, Inc
Subjects
Biological Transport
Diffusion
Epidermis - metabolism
human epidermal membrane
Humans
Iontophoresis
Models, Biological
Nernst-Planck model
oligonucleotide
Oligonucleotides - pharmacokinetics
transdermal
transdermal
Nernst–Planck model
iontophoresis
human epidermal membrane
oligonucleotide
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Summary:The objective of this study was to investigate the transport behavior of a series of oligonucleotides with human epidermal membrane (HEM) and to examine the applicability of the modified NERNST–PLANCK model to transdermal iontophoresis of these macromolecules. Iontophoretic transport experiments were first carried out in a synthetic model membrane system (Nuclepore membranes) with a four‐electrode potentiostat to examine the baseline modified NERNST–PLANCK model. The modified NERNST–PLANCK model derived from the Einstein relation and the Stokes–Einstein equation taken from previous work did not hold for the oligonucleotides. Results obtained in the Nuclepore studies were, however, consistent with predictions of the modified NERNST–PLANCK model using the experimentally determined electromobilities and diffusion coefficients. The electromobilities of the oligonucleotides (determined by capillary electrophoresis) were found to be more than a factor of two smaller than expected from the Einstein relation between electromobilities and diffusion coefficients (the latter determined in diffusion cell experiments). A correlation between these electromobilities and the theoretical electromobilities estimated by considering the effects of counterion binding and the effects of mobility reduction according to colloid theory was also observed. These results suggest that the modified NERNST–PLANCK model predictions are satisfactory only when the electromobilities and the effective molecular size of the oligonucleotides are known and are used directly to predict the iontophoretically enhanced transport. Results with the HEM experiments generally agreed with model predictions based on the experimental electromobilities. The oligonucleotide HEM flux data also suggest the existence of pores with effective pore radii greater than the effective radii estimated in previous studies with small molecular weight model permeants. © 2001 Wiley‐Liss, Inc. and the American Pharmaceutical Association J Pharm Sci 90:915–931, 2001
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ISSN:0022-3549
1520-6017
DOI:10.1002/jps.1043