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Macromolecules as Novel Transdermal Transport Enhancers for Skin Electroporation

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Abstract

Purpose. Macromolecules were investigated as chemical enhancers of transdermal transport by skin electroporation. Although unable to enhance passive or iontophoretic transport, macromolecules are proposed to enhance electroporation-assisted delivery by stabilizing the increased permeability caused by high-voltage pulses.

Methods. To test this hypothesis, we examined the timescale of transport, the influence of electrical protocol and the influence of macromolecule size, structure, and charge on enhancement of transdermal mannitol transport in vitro by heparin, dextran-sulfate, neutral dextran, and poly-lysine.

Results. Skin electroporation increased transdermal mannitol delivery by approximately two orders of magnitude. The addition of macromolecules further increased transport up to five-fold, in support of the proposed hypothesis. Macromolecules present during pulsing enhanced mannitol transport after pulsing for hours, apparently by a macromolecule-skin interaction. No enhancement was observed during passive diffusion or low-voltage iontophoresis, suggesting that macromolecules interact specifically with transport pathways created at high voltage. Although all macromolecules studied enhanced transport, those with greater charge and size were more effective.

Conclusions. This study demonstrates that macromolecules can be used as trandermal transport enhancers uniquely suited to skin electroporation.

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Authors and Affiliations

  1. Unité de Pharmacie galénique, Ecole de Pharmacie, Université catholique de Louvain, Brussels, Belgium

    Rita Vanbever & Véronique Préat

  2. School of Chemical Engineering, Georgia Institute of Technology, Atlanta, Georgia, 30332

    Mark R. Prausnitz

Authors
  1. Rita Vanbever
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  2. Mark R. Prausnitz
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  3. Véronique Préat
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Vanbever, R., Prausnitz, M.R. & Préat, V. Macromolecules as Novel Transdermal Transport Enhancers for Skin Electroporation. Pharm Res 14, 638–644 (1997). https://doi.org/10.1023/A:1012161313701

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