Eudragit E100/Hesperidin 3D Printing Filaments: Preparation, Characterization, and In Vitro Release Studies

Abstract

The importance of the Eudragit® E100 copolymer (E100) is recognized in the pharmaceutical industry as a pH-dependent coating material in conventional oral administration dosage applications, where a modified release profile is required. On the other hand, its arrangement for 3D printing of cylindrical-shaped filaments containing drugs (to produce customized pharmaceuticals), is still scarce in the literature, and is currently an open field of research. One of the main challenges involves the manufacture of filaments that are flexible and functional, as their cylindrical shape (which is necessary for its use on FDM 3D printers) significantly increases the material’s fragility. Thus, the objective of this work was to prepare and characterize E100/Hesperidin (Hsp) filaments, and to study in vitro dissolution from Hsp active molecules of this unconventional polymeric matrix. The hybrid filaments were produced using a surface chemical treatment of the material resulting from a hot-melt extrusion process. The microstructural characterization of the filaments was performed using SEM, XRD, FTIR and ATR. The thermal analysis of the materials was performed using DSC, and the mechanical resistance was analyzed using flexural testing. The in vitro release profiles of the filament-arranged drug were evaluated in solutions of simulated gastro and intestinal fluids.