2017
DOI: 10.1248/cpb.c16-00639
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Molecular Interaction between Intercellular Lipids in the Stratum Corneum and <i>l</i>-Menthol, as Analyzed by Synchrotron X-Ray Diffraction

Abstract: l-Menthol increases drug partitioning on the surface of skin, diffusion of drugs in the skin, and lipid fluidity in the stratum corneum and alters the rigidly arranged lipid structure of intercellular lipids. However, l-menthol is a solid at room temperature, and it is difficult to determine the effects of l-menthol alone. In this study, we vaporized l-menthol in order to avoid the effects of solvents. The vaporized l-menthol was applied to the stratum corneum or lipid models comprising composed of ceramides (… Show more

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Cited by 6 publications
(4 citation statements)
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“…Many reports have been published that decrease the orthorhombic packing structure and a hexagonal packing structure by penetration enhancers to increase the skin permeation of drugs. In the present study, l-menthol and ethanol were selected as positive controls that affect the lipid structure and the three-dimensional structure of keratin in the stratum corneum (26,27).…”
Section: Observation Of Fl Distribution In the Adhesive Layermentioning
confidence: 99%
“…Many reports have been published that decrease the orthorhombic packing structure and a hexagonal packing structure by penetration enhancers to increase the skin permeation of drugs. In the present study, l-menthol and ethanol were selected as positive controls that affect the lipid structure and the three-dimensional structure of keratin in the stratum corneum (26,27).…”
Section: Observation Of Fl Distribution In the Adhesive Layermentioning
confidence: 99%
“…Many studies utilizes infrared (IR) microspectroscopy to identify the effect of chemical penetration enhancers, such as oleic acid [ 4 ], other fatty acids [ 5 ] and Emu oil [ 6 ] on the lipid and/or protein constituents of SC. Furthermore, other techniques such as synchrotron X-Ray diffraction [ 7 ] and neutron diffraction [ 8 ] were used to investigate the interaction of penetration enhancers with SC lipids. The effect of some nontraditional penetration enhancers on the biochemical composition of SC was also investigated.…”
Section: Introductionmentioning
confidence: 99%
“…Through the use of high brightness synchrotron light sources, the kinetics of rapid phase transitions can be probed, 27 where increased understanding of lipid phase behaviour has led to the handling of increasingly complex structures. 28 Increasing light source brightness and detector frame rates offers the possibility of probing membrane structural transitions with ever greater time resolution and detail, but this increase in data presents significant analysis challenges. 29 A current typical synchrotron SAXS experimental workflow requires the researcher designing experiments to formulate mixtures either prior to the experimental time or at a laboratory at the beamline facility followed by performing the SAXS experiments.…”
Section: Introductionmentioning
confidence: 99%