Desenvolvimento de sistemas de liberação para a administração tópica passiva e iontoforética do minoxidil no tratamento da alopecia androgênica / Development of delivery systems for the topical passive and iontophoretic administration of minoxidil for the androgenic alopecia treatment

AUTOR(ES)
DATA DE PUBLICAÇÃO

2009

RESUMO

Given the hypothesis that polymeric microparticles can penetrate the skin barrier along the transfollicular route, and based on the evidence that iontophoresis is a method that can direct the delivery of drugs to the hair follicles, this work aimed to study the in vitro skin permeation of minoxidil sulfate (MXS), a drug used to treat androgenic alopecia, both in its micro-encapsulated and non-encapsulated form, using or not iontophoresis, in an attempt to increase, control and direct its topical delivery to the hair follicle. The MXS was first incorporated in a hydrophilic gel containing 2.0% (w/w) MXS and its skin permeation and retention was in vitro observed with and without the presence of electric current for 6 h, using diffusion cells and skin of porcines ears. The amount of MXS retained in EC was determined and differentiated from that retained in the hair follicles using the technique called differential tape stripping. It was observed that the passive flux of drug through the skin was increased 150-fold with the application of anodal iontophoresis and, by increasing the pH of the formulation from 3.5 to 5.5, iontophoretic permeation of MXS was 3-fold restricted, whereas it increased its retention in stratum corneum and hair follicles. These results show that iontophoresis of MXS in these conditions can promote the follicular delivery of the drug quite significantly. A series of chitosan microparticles containing MXS was obtained by spray drying, modifying quantities and proportions of polymer and drug. The system selected for study was obtained from 1.50 g of polymer and 0.75 g of MXS, and showed high encapsulation efficiency (~ 82%), mean diameter of 3.05 µm, spherical morphology without porosities, and zeta potential equal to + 5.87 mV. When incorporated into a hydro ethanolic formulation, these microparticles suffered swelling, increasing 1.5 times its diameter, but their spherical morphology was not modified. Permeation experiments showed in vitro that the microparticles obtained were able to sustain 3.5 times the release of MXS. The microparticles also restricted the passive permeation of the drug, reducing 2-fold its permeation flux and increasing by 5-fold the retention of drug in the follicular region, although the microparticles themselves did not penetrate the skin after passive administration. Thus, this system was able to promote a more sustained release of the drug, which must reduce the number of product applications by the patient throughout the day, and ensured the entry of large amounts of drug in hair follicles, their target. Iontophoresis of microparticles, although not making them penetrate the skin either, was able to direct them quickly to the follicular openings, as shown by laser confocal scanning microscopy studies of the labeled microparticles. In addition, iontophoresis increased 6-fold the amount of MXS retained in the follicles within the first 3 h of application, thereby ensuring that large quantities of the drug achieved its site of action more quickly than when the particles were applied passively to the skin.

ASSUNTO(S)

minoxidi micropartículas follicular penetration minoxidil microparticles penetração folicular iontoforese androgenic alopecia iontophoresis alopecia androgênica

ACESSO AO ARTIGO

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