AUTHOR=Meiser Sophie Luise , Pielenhofer Jonas , Hartmann Ann-Kathrin , Stein Lara , Dettweiler Jule , Grabbe Stephan , Radsak Markus P. , Langguth Peter 

TITLE=Microneedle-enhanced drug delivery: fabrication, characterization, and insights into release and permeation of nanocrystalline imiquimod

JOURNAL=Frontiers in Drug Delivery

VOLUME=4

YEAR=2024

URL=https://www.frontiersin.org/journals/drug-delivery/articles/10.3389/fddev.2024.1425144

DOI=10.3389/fddev.2024.1425144

ISSN=2674-0850

ABSTRACT=<p>Transcutaneous delivery systems bear several advantages over conventional needle-based injections. Considering the low bioavailability and poor water-solubility of imiquimod, a manufacturing process has been developed to incorporate imiquimod as suspended nanocrystals in different formulations. In this study, three formulations - fast-dissolving microneedle arrays that contain nanocrystalline imiquimod in a poly (vinyl)alcohol matrix and two semisolid preparations-were characterized and compared. The results show that microneedle arrays have an advantage over the semisolid preparations regarding <italic>in vitro</italic> release and permeation characteristics. Microneedle arrays facilitate <italic>ex vivo</italic> permeation, thus reducing the applied dose by 93% compared to the semisolid formulations. Additionally, the amount of imiquimod permeated after 24 h maintained the same level even when the contact time of the formulation with the skin is less than 1 hour. In conclusion, our results highlight the great potential of advanced microneedle based delivery systems and foster the further evaluation of this approach.</p>