Visualizing Dermal Permeation of Sodium Channel Modulators by Mass Spectrometric Imaging | Zendy

Lívia S. Eberlin | Zendy; John V. Mulcahy | Zendy; Alexander Tzabazis | Zendy; Jialing Zhang | Zendy; Huwei Liu | Zendy; Matthew M. Logan | Zendy; Heather J. Roberts | Zendy; Gordon K. Lee | Zendy; David C. Yeomans | Zendy; J. Du Bois | Zendy; Richard N. Zare | Zendy

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Visualizing Dermal Permeation of Sodium Channel Modulators by Mass Spectrometric Imaging

Author(s) -

Lívia S. Eberlin,

John V. Mulcahy,

Alexander Tzabazis,

Jialing Zhang,

Huwei Liu,

Matthew M. Logan,

Heather J. Roberts,

Gordon K. Lee,

David C. Yeomans,

J. Du Bois,

Richard N. Zare

Publication year - 2014

Publication title -

journal of the american chemical society

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 7.115

H-Index - 612

eISSN - 1520-5126

pISSN - 0002-7863

DOI - 10.1021/ja501635u

Subject(s) - chemistry , permeation , human skin , mass spectrometry , mass spectrometry imaging , penetration (warfare) , sodium channel , sodium , ex vivo , biophysics , chromatography , in vitro , organic chemistry , biochemistry , membrane , genetics , operations research , engineering , biology

Determining permeability of a given compound through human skin is a principal challenge owing to the highly complex nature of dermal tissue. We describe the application of an ambient mass spectrometry imaging method for visualizing skin penetration of sodium channel modulators, including novel synthetic analogs of natural neurotoxic alkaloids, topically applied ex vivo to human skin. Our simple and label-free approach enables successful mapping of the transverse and lateral diffusion of small molecules having different physicochemical properties without the need for extensive sample preparation.

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