M. N. Berliner, Skin microcirculation during tapwater iontophoresis in humans: cathode stimulates more than anode, Microvasc Res, vol.54, pp.74-80, 1997.

M. Grossmann, M. J. Jamieson, D. L. Kellogg, J. Kosiba, W. A. Pergola et al., The effect of iontophoresis on the cutaneous vasculature: evidence for current-induced hyperemia, Microvasc Res, vol.50, pp.444-52, 1995.

S. Durand, B. Fromy, P. Bouye, J. L. Saumet, and P. Abraham, Current-induced vasodilation during water iontophoresis (5 min, 0.10 mA) is delayed from current onset and involves aspirin sensitive mechanisms, J Vasc Res, vol.39, pp.59-71, 2002.

S. Gohin, D. Sigaudo-roussel, A. Conjard-duplany, L. Dubourg, J. L. Saumet et al., What can current stimulation tell us about the vascular function of endogenous prostacyclin in healthy rat skin in vivo?, J Invest Dermatol, vol.131, pp.237-281, 2011.

S. Durand, B. Fromy, P. Bouye, J. L. Saumet, and P. Abraham, Vasodilatation in response to repeated anodal current application in the human skin relies on aspirin-sensitive mechanisms, J Physiol, vol.540, pp.261-270, 2002.

M. Tartas, P. Bouye, A. Koitka, V. Jaquinandi, L. Tan et al., Cathodal current-induced vasodilation to single application and the amplified response to repeated application in humans rely on aspirin-sensitive mechanisms, J Appl Physiol, vol.99, pp.1538-1582, 2005.

S. Durand, B. Fromy, A. Koitka, M. Tartas, J. L. Saumet et al., Oral single highdose aspirin results in a long-lived inhibition of anodal current-induced vasodilatation, Br J Pharmacol, vol.137, pp.384-90, 2002.

P. Abraham, M. Bourgeau, M. Camo, A. Humeau-heurtier, S. Durand et al.,

G. Mahe, Effect of skin temperature on skin endothelial function assessment, Microvasc Res, vol.88, pp.56-60, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00845913

C. Puissant, P. Abraham, S. Durand, A. Humeau-heurtier, S. Faure et al., Assessment of endothelial function by acetylcholine iontophoresis: Impact of interelectrode distance and electrical cutaneous resistance, Microvasc Res, vol.93, pp.114-122, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01147019

G. Mahe, A. Humeau-heurtier, S. Durand, G. Leftheriotis, and P. Abraham, Assessment of skin microvascular function and dysfunction with laser speckle contrast imaging, Circulation Cardiovascular imaging, vol.5, pp.155-63, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00846240

W. R. Ferrell, J. E. Ramsay, N. Brooks, J. C. Lockhart, S. Dickson et al., Elimination of electrically induced iontophoretic artefacts: implications for noninvasive assessment of peripheral microvascular function, J Vasc Res, vol.39, pp.447-55, 2002.

J. C. Lopshire and G. D. Nicol, Activation and recovery of the PGE2-mediated sensitization of the capsaicin response in rat sensory neurons, Journal of neurophysiology, vol.78, pp.3154-64, 1997.

T. Minami, E. Okuda-ashitaka, Y. Hori, S. Sakuma, T. Sugimoto et al., Involvement of primary afferent C-fibres in touch-evoked pain (allodynia) induced by prostaglandin E2, The European journal of neuroscience, vol.11, pp.1849-56, 1999.

J. L. Cracowski, F. Gaillard-bigot, C. Cracowski, C. Sors, M. Roustit et al., Involvement of cytochrome epoxygenase metabolites in cutaneous postocclusive hyperemia in humans, J Appl Physiol, vol.114, pp.245-51, 1985.

S. Lorenzo and C. T. Minson, Human cutaneous reactive hyperaemia: role of BKCa channels and sensory nerves, J Physiol, vol.585, pp.295-303, 2007.

C. Puissant, P. Abraham, S. Durand, A. Humeau-heurtier, S. Faure et al., Reproducibility of non-invasive assessment of skin endothelial function using laser Doppler flowmetry and laser speckle contrast imaging, PloS one, vol.8, p.61320, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00845967

C. Puissant, P. Abraham, S. Durand, A. Humeau-heurtier, S. Faure et al.,

, J Mal Vasc, vol.39, pp.47-56, 2014.