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Pig Ear Skin ex Vivo as a Model for in Vivo Dermatopharmacokinetic Studies in Man

Herkenne, Christophe ; Naik, Aarti ; Kalia, Yogeshvar ; Hadgraft, Jonathan ; Guy, Richard

In: Pharmaceutical Research, 2006, vol. 23, no. 8, p. 1850-1856

The Effect of Current on Skin Barrier Function In Vivo: Recovery Kinetics Post-Iontophoresis

Turner, Norris ; Kalia, Yogeshvar ; Guy, Richard

In: Pharmaceutical Research, 1997, vol. 14, no. 9, p. 1252-1257

Testosterone Hormone Replacement Therapy: State-of-the-Art and Emerging Technologies

Leichtnam, Marie-Laure ; Rolland, Hervé ; Wüthrich, Patrick ; Guy, Richard

In: Pharmaceutical Research, 2006, vol. 23, no. 6, p. 1117-1132

Age-related differences in human skin proteoglycans

Carrino, David A. ; Calabro, Anthony ; Darr, Aniq B. ; Dours-Zimmermann, Maria T. ; Sandy, John D. ; Zimmermann, Dieter R. ; Sorrell, J Michael ; Hascall, Vincent C. ; Caplan, Arnold I.

In: Glycobiology, 2011, vol. 21, no. 2, p. 257-268

The Cutaneous Lesions of Dioxin Exposure: Lessons from the Poisoning of Victor Yushchenko

Saurat, Jean-Hilaire ; Kaya, Guerkan ; Saxer-Sekulic, Nikolina ; Pardo, Bruno ; Becker, Minerva ; Fontao, Lionel ; Mottu, Florence ; Carraux, Pierre ; Pham, Xuan-Cuong ; Barde, Caroline ; Fontao, Fabienne ; Zennegg, Markus ; Schmid, Peter ; Schaad, Olivier ; Descombes, Patrick ; Sorg, Olivier

In: Toxicological Sciences, 2012, vol. 125, no. 1, p. 310-317

Incidence of Invasive Cancers Following Squamous Cell Skin Cancer

Levi, Fabio ; Randimbison, Lalao ; Vecchia, Carlo La ; Erler, Georges ; Te, Van-Cong

In: American Journal of Epidemiology, 1997, vol. 146, no. 9, p. 734-739

Wound degradomics - current status and future perspectives

Hermes, Olivia ; Schlage, Pascal ; dem Keller, Ulrich auf

In: Biological Chemistry, 2011, vol. 392, no. 11, p. 949-954

Report of the Symposium on Cutaneous Lymphomas: Sixth International Conference on Malignant Lymphoma

Jaffe, E. S. ; Burg, G.

In: Annals of Oncology, 1997, vol. 8, p. S83-S84

Human epithelial cells in vitro – Are they an advantageous tool to help understand the nanomaterial-biological barrier interaction?

Rothen-Rutishauser, Barbara ; Clift, Martin J.D. ; Jud, Corinne ; Fink, Alke ; Wick, Peter

In: Euro Nanotox Letters, 2012, vol. 4, no. 01, p. 1-20

The human body can be exposed to nanomaterials through a variety of different routes. As nanomaterials get in contact with the skin, the gastrointestinal tract, and the respiratory tract, these biological compartments are acting as barriers to the passage of nano-sized materials into the organism. These structural and functional barriers are provided by the epithelia serving as an interface...

Mathematical analysis of competition between sensory ganglion cells for neurotrophic factor in the skin

Kohli, R. ; Gabriel, Jean-Pierre ; Clarke, P.G.H.

In: Mathematical Biosciences, 2004, vol. 191, p. 207

A model is presented of competition between sensory axons for trophic molecules (e.g. a neurotrophin such as NGF), produced in a region of skin small enough to permit their free diffusion throughout it; e.g., a touch dome, or a vibrissal follicle hair sinus. The variables specified are the number of high affinity trophic factor receptors per axon terminal and the concentration of trophic factor...