Background: Transdermal drug delivery represents an extremely attractive and innovative route across the
skin owing to the possibility for achieving systemic effect of drugs. The present scenario demands a special focus on
developing safe medicine with minimized toxic adverse effects related to most of the pharmacologically active agents.
Transdermal drug delivery would be a focal paradigm which provides patient convenience, first-pass hepatic metabolism
avoidance, local targeting and reduction in toxic effect related to various categories of drugs like, analgesics, antiinflammatory,
antibiotics, antiviral, anaesthetic, anticancer etc. Even this route has challenges due to highly organized
structure of skin which acts as a main barrier to penetration of drug via the skin.
Method: Several alternative possible strategies are available which overcome these barriers, including use of penetration
enhancer, eletroporation, iontophoresis and various nanotechnologically developed nanocarrier systems. The latest
one includes employing liposome, dendrimers, nanoparticles, ethosome, carbon nanotube and many more to avoid
associated limitations of conventional formulations. Numerous transdermal products such as Estrasorb, Diractin,
VivaGel®, Daytrana®, Aczone, Sileryst® are available in the market having a novel strategy to achieve higher penetration
of drugs. This encourages formulation fraternity to develop structurally deformable and stable nanocarriers as an
alternative approach for controlled and reliable drug delivery across the skin barrier.
Discussion: In this review, we will discuss nanocarriers mediated approaches that come-up with the solutions to the
different challenges towards transdermal drug delivery, its clinical importance and latest insight to research in it.
Conclusion: The reports presented in this review confirm the wide application of nanocarriers for transdermal delivery