Hierarchical microplates as drug depots with controlled geometry, rigidity and therapeutic efficacy
Martina Di Francesco, Rosita Primavera, Davide Romanelli, Roberto, Palomba, Tiziano Catelani, Christian Celia, Luisa Di Marzio, Massimo Fresta,, Daniele Di Mascolo, Paolo Decuzzi

TL;DR
This study introduces microPlates (uPLs), square hydrogel microparticles made of PLGA with tunable stiffness and geometry, capable of sustained drug release and adaptable for treating various diseases.
Contribution
It presents a top-down fabrication method for creating hierarchical microPlates with independently adjustable mechanical and geometric properties for drug delivery.
Findings
uPLs can be fabricated with Young's modulus from 0.6 to 5 MPa.
They enable sustained release of drugs for at least 10 days.
Incorporation of nanoparticles reduces burst release and modulates drug diffusion.
Abstract
A variety of microparticles have been proposed for the sustained and localized delivery of drugs whit the objective of increasing therapeutic indexes by circumventing filtering organs and biological barriers. Yet, the geometrical, mechanical and therapeutic properties of such microparticles cannot be simultaneously and independently tailored during the fabrication process in order to optimize their performance. In this work, a top-down approach is employed to realize micron-sized polymeric particles, called microPlates (uPLs), for the sustained release of therapeutic agents. uPLs are square hydrogel particles, with an edge length of 20 um and a height of 5 um, made out of poly (lactic co glycolic acid) (PLGA). During the synthesis process, the uPL Young's modulus can be varied from 0.6 to 5 MPa by changing PLGA amounts from 1 to 7.5 mg, without affecting the uPL geometry. Within the…
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Taxonomy
TopicsNanoparticle-Based Drug Delivery · Advanced Drug Delivery Systems · Advancements in Transdermal Drug Delivery
