RESUMO
In general, the systems intended for the treatment and recovery of wounds, seek to act as a coating for the damaged area, maintaining an adequate level of humidity, reducing pain, and preventing the invasion and proliferation of microorganisms. Although many of the systems that are currently on the market meet the purposes mentioned above, with the arrival of nanotechnology, it has sought to improve the performance of these coatings. The variety of nano-systems that have been proposed is very extensive, including the use of very different materials (natural or synthetic) ranging from polymers or lipids to systems derived from microorganisms. With the objective of improving the performance of the systems, seeking to combat several of the problems that arise in a wound, especially when it is chronic, these materials have been combined, giving rise to nanocomposites or scaffolds. In recent years, the interest in the development of systems for the treatment of wounds is notable, which is reflected in the increase in publications related to the subject. Therefore, this document presents generalities of systems involving nanocarriers, mentioning some examples of representative systems of each case.
Assuntos
Fármacos Dermatológicos/administração & dosagem , Portadores de Fármacos/química , Nanocompostos/química , Cicatrização/efeitos dos fármacos , HumanosRESUMO
Transdermal drug delivery has exhaustively been studied over the past decades due to its multiple advantages over other administration routes; however, drugs that can be administered by this via are few owe to the stratum corneum permeability properties. Recently, several strategies to bypass the upper-layer skin barrier have been developed. One of the latest advances in this area has been the use of micro-scale needles, which painlessly pierce skin, increasing the passage of drugs with unfavourable skin permeability (i.e., low potent, hydrophilic, high molecular drugs) by several orders of magnitude, by bypassing the stratum corneum. Microneedles have shown to be safe and easy-to-use for drug administration, a nouvelle alternative to hypodermic needle injections, and an array in which drugs can be included to attain a controlled release as to achieve a higher drug delivery. Several works have demonstrated that such devices dramatically increase transdermal delivery of large molecules, thus nowadays microneedles have been regarded as a potential technology approach to be employed alone or with other enhancing methods such as electroporation and iontophoresis, as well as with different drug carriers (e.g., lipid vesicles, micro- and nanoparticles). Hence, this review is mainly focused on presenting the results obtained when combining microneedles with a variety of strategies to ease drug diffusion through skin, including physical enhancers and drug carrier systems.