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Cutaneous and Ocular Toxicology Volume 32, 2013 - Issue 4
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Research Article

Assessing vehicle effects on skin absorption of non-volatile compounds using membrane-coated fiber arrays

Daniela KaradzovskaCenter for Chemical Toxicology Research and Pharmacokinetics, North Carolina State University Raleigh, NCUSA
&
Jim RiviereDepartment of Anatomy and Physiology, Kansas State University Manhattan, KSUSACorrespondence[email protected]
Pages 283-289 | Received 24 Jan 2013, Accepted 26 Feb 2013, Published online: 16 Apr 2013

References

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  • Baynes RE, Xia XR, Barlow BM, Riviere JE. Partitioning behavior of aromatic components in jet fuel into diverse membrane-coated fibers. J Toxicol Environ Health A 2007;70:1879–1887
  • Riviere JE, Brooks JD, Yeatts JL, Koivisto EL. Surfactant effects on skin absorption of model organic chemicals: implications for dermal risk assessment studies. J Toxicol Environ Health A 2010;73:725–737
  • Riviere JE, Baynes RE, Xia XR. Membrane-coated fiber array approach for predicting skin permeability of chemical mixtures from different vehicles. Toxicol Sci 2007;99:153–161
  • Xia XR, Baynes RE, Monteiro-Riviere NA, Riviere JE. An experimentally based approach for predicting skin permeability of chemicals and drugs using membrane-coated fiber array. Toxicol Appl Pharmacol 2007;221:320–328
  • Xia XR, Baynes RE, Monteiro-Riviere NA, et al. A novel in-vitro technique for studying percutaneous permeation with a membrane-coated fiber and gas chromatography/mass spectrometry: part I. Performances of the technique and determination of the permeation rates and partition coefficients of chemical mixtures. Pharm Res 2003;20:275–282
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  • Flynn GL, Yalkowsky SH. Correlation and prediction of mass transport across membranes I: influence of alkyl chain length on flux-determining properties of barrier and diffusant. J Pharm Sci 1972;61:838–852
  • Xia XR, Baynes RE, Monteiro-Riviere NA, Riviere JE. A compartment model for the membrane-coated fiber technique used for determining the absorption parameters of chemicals into lipophilic membranes. Pharm Res 2004;21:1345–1652
  • Vuckovic D, Cudjoe E, Musteata FM, Pawliszyn J. Automated solid-phase microextraction and thin-film microextraction for high-throughput analysis of biological fluids and ligand–receptor binding studies. Nat Protoc 2010;5:140–161
  • Risticevic S, Lord H, Gorecki T, et al. Protocol for solid-phase microextraction method development. Nat Protoc 2010;5:122–139
  • Karadzovska D, Brooks JD, Riviere JE. Experimental factors affecting in vitro absorption of six model compounds across porcine skin. Toxicol In Vitro 2012;26:1191–1198
  • Moss GP, Dearden JC, Patel H, Cronin MT. Quantitative structure–permeability relationships (QSPRs) for percutaneous absorption. Toxicol In Vitro 2002;16:299–317
  • Hutchinson JP, Setkova L, Pawliszyn J. Automation of solid-phase microextraction on a 96-well plate format. J Chrom A 2007;1149:127–137
  • Yeatts Jr JL, Baynes RE, Xia WR, Riviere JE. Application of linear salvation energy relationships to a custom-made polyaniline solid-phase microextraction fiber and three commercial fibers. J Chrom A 2008;1188:108–117

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