Transdermal Delivery of Cytochrome C—A 12.4kDa Protein—Across Intact Skin by Constant-Current Iontophoresis

Purpose: To demonstrate the transdermal iontophoretic delivery of a small (12.4kDa) protein across intact skin. Materials and Methods: The iontophoretic transport of Cytochrome c (Cyt c) across porcine ear skin in vitro was investigated and quantified by HPLC. The effect of protein concentration (0.35 and 0.7mM), current density (0.15, 0.3 or 0.5mA.cm−2 applied for 8h) and competing ions was evaluated. Co-iontophoresis of acetaminophen was employed to quantify the respective contributions of electromigration (EM) and electroosmosis (EO). Results: The data confirmed the transdermal iontophoretic delivery of intact Cyt c. Electromigration was the principal transport mechanism, accounting for ∼90% of delivery; correlation between EM flux and electrophoretic mobility was consistent with earlier results using small molecules. Modest EO inhibition was observed at 0.5mA.cm−2. Cumulative permeation at 0.3 and 0.5mA.cm−2 was significantly greater than that at 0.15mA.cm−2; fluxes using 0.35 and 0.7mM Cyt c in the absence of competing ions (J tot  = 182.8 ± 56.8 and 265.2 ± 149.1μg.cm−2.h−1, respectively) were statistically equivalent. Formulation in PBS (pH8.2) confirmed the impact of competing charge carriers; inclusion of ∼170mM Na+ resulted in a 3.9-fold decrease in total flux. Conclusions: Significant amounts (∼0.9mg.cm−2 over 8h) of Cyt c were delivered non-invasively across intact skin by transdermal electrotranspor

Investigation of Different Iontophoretic Currents Profiles for Short-Term Applications in Cosmetics

[EN] This study aimed at investigating the effect of electrical current profile upon the iontophoretic transport of (i) ascorbic acid (AA) and (ii) ellagic acid (EA), into porcine skin in vitro, and the impact of the physicochemical properties of both actives on their mechanism of transport when formulated in cosmetic compositions. The experiments were performed using a proprietary iontophoretic device containing a roller to apply the formulation. Three current profiles were tested: (i) galvanic direct current (DC), (ii) square unipolar pulse current (SPC), and (iii) galvanic direct current (DC) + pulse current (PC). The skin samples were collected at different sampling points, extracted and analyzed by HPLC. Results suggested that the DC + PC mode for only 5 min was able to significantly increase the delivery of AA from o/w cosmetic compositions. The use of this current profile might improve the skin penetration of AA due to electromigration and passive diffusion, the latter being facilitated by the physical enhancement method. The SPC mode significantly improved the passage of EA in its neutral form from cosmetic o/w formulations by electroosmosis. Tailoring specific electrical current modes considering the ionization state of active ingredients would allow the design of short and personalized cosmetic treatments that significantly improve the penetration efficiency of the active ingredients and possibly reduce the doses applied.This research was entirely funded by L'Oreal, France.Cázares-Delgadillo, J.; Planard-Luong, L.; Gregoire, S.; Serna-Jiménez, CE.; Singhal, M.; Kalia, YN.; Merino Sanjuán, V.... (2018). Investigation of Different Iontophoretic Currents Profiles for Short-Term Applications in Cosmetics. Pharmaceutics. 10(4). https://doi.org/10.3390/pharmaceutics10040266266104R. Hamad, A.-W., Al-Momani, W. M., Janakat, S., & A. Oran, S. (2009). Bioavailability of Ellagic Acid After Single Dose Administration Using HPLC. Pakistan Journal of Nutrition, 8(10), 1661-1664. doi:10.3923/pjn.2009.1661.1664Kalia, Y. N., Naik, A., Garrison, J., & Guy, R. H. (2004). Iontophoretic drug delivery. Advanced Drug Delivery Reviews, 56(5), 619-658. doi:10.1016/j.addr.2003.10.026Marro, D., Kalia, Y. N., Begoña Delgado‐Charro, M., & Guy, R. H. (2001). Pharmaceutical Research, 18(12), 1701-1708. doi:10.1023/a:1013318412527Sobhi, R. M., & Sobhi, A. M. (2012). A single-blinded comparative study between the use of glycolic acid 70% peel and the use of topical nanosome vitamin C iontophoresis in the treatment of melasma. Journal of Cosmetic Dermatology, 11(1), 65-71. doi:10.1111/j.1473-2165.2011.00599.xHori, Y., Akimoto, R., Hori, A., Kato, K., Chino, D., Matsumoto, S., … Watanabe, Y. (2010). Skin collagen reproduction increased by ascorbic acid derivative iontophoresis by frequent-reversal bipolar electric stimulation. International Journal of Cosmetic Science, 32(3), 234-234. doi:10.1111/j.1468-2494.2010.00577_3.xJunyaprasert, V. B., Singhsa, P., Suksiriworapong, J., & Chantasart, D. (2012). Physicochemical properties and skin permeation of Span 60/Tween 60 niosomes of ellagic acid. International Journal of Pharmaceutics, 423(2), 303-311. doi:10.1016/j.ijpharm.2011.11.032Maia, A. M., Baby, A. R., Pinto, C. A. S. O., Yasaka, W. J., Suenaga, E., Kaneko, T. M., & Velasco, M. V. R. (2006). Influence of sodium metabisulfite and glutathione on the stability of vitamin C in O/W emulsion and extemporaneous aqueous gel. International Journal of Pharmaceutics, 322(1-2), 130-135. doi:10.1016/j.ijpharm.2006.05.03