MECHANICAL CHARACTERIZATION AS A TOOL FOR PREDICTING THE PROCESSABILITY OF FELODIPINE-LOADED FILAMENTS DURING FUSED DEPOSITION MODELLING
RAREȘ IULIU IOVANOV, ALINA SILVIA PORFIRE *, ANDREA GABRIELA CRISAN, NADINE COUȚI, SONIA MEDA IURIAN, TIBOR CASIAN, ANAMARIA-ALEXANDRA CĂLIN, OANA-BIANCA FARCĂU, GRAȚIELA-VICTORIA CUMURCIUC, MONICA-REKA GASPAR, DIANA-ROXANA DRAGOȚEL, IOAN TOMUȚĂ
Pharmaceutical Technology and Biopharmacy, Department 1, Faculty of Pharmacy, “Iuliu Hatieganu” University of Medicine and Pharmacy, Cluj-Napoca, Romania
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Nowadays, 3D printing (3DP) is gaining momentum to prepare customized solid pharmaceutical forms. This additive manufacturing technique is versatile, flexible, cost effective and easy to use. Among various 3DP techniques, fused deposition modelling (FDM) is the most applied for manufacturing of pharmaceutical dosage forms. For this purpose, the 3D printers are fed with filaments of pre-defined diameter, loaded with active pharmaceutical ingredients (APIs), usually obtained through the hot melt extrusion (HME) technique. The filament quality is essential for the success of the printing step and for the quality of the drug product, good mechanical properties of the filament being mandatory for smooth processability through FDM. In this context, our work aimed to evaluate the mechanical properties and printability of filaments obtained through HME, and to establish mechanical parameters that might be used to predict their processability through FDM. Filaments were extruded using polyvinyl alcohol as filament-forming polymer and mannitol as plasticizer, while felodipine was the selected active substance. The impact of the formulation on the quality of the filaments has been evaluated and their processability was evaluated using mechanical characterization. Our results have shown the impact of the formulation on the processability of the filaments through FDM and led to the establishment of target values for several mechanical characteristics of felodipine-loaded filaments that warrant obtaining processable filaments in the 3D printing step.