Abstract
AbstractA pioneering approach in the domain of transdermal drug delivery systems (TDDS) is introduced by using microneedles (MNs) fabricated from an amorphous solid dispersion comprising only a model drug and an amphiphilic block copolymer to form a drug nanoformulation upon MN dissolution. To maximize drug loading and ensure consistent release, a minimalist formulation that achieves 40 wt% drug loading, which is a significant improvement over existing methods, is developed. Using scanning electron microscopy, the morphology of MNs is examined across a spectrum of drug loading ratios, demonstrating the consistency in structure and integrity. Mechanical testing confirms the MNs' proficiency in effective skin penetration. A comparative study on the formation of polymeric micelles underscores the innovative concept of a “nano‐in‐micro drug delivery system”. The results demonstrate that MNs manufactured from an amorphous solid dispersion of drug and amphiphilic block copolymer with ultra‐high loading enhance the availability and release dynamics of hydrophobic drugs, positioning them as a tool for enhancing TDDS. This study sets a new benchmark in the utilization of polymer‐drug nanoformulations for transdermal applications and underscores the capacity for high drug loading and the creation of adaptable drug delivery mechanisms for the studied amphiphilic block copolymer.
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