Brittle polymers in Fused Deposition Modeling: An improved feeding approach to enable the printing of highly drug loaded filament

Abstract

Brittleness is often described as a restricting material property for the processability of filaments via Fused Deposition Modeling. Especially filaments produced from approved pharmaceutical polymers often tend to fracture between feeding gears, the commonly employed feeding mechanism. In order to enhance their mechanical properties, usually extensive formulation development is performed. This study presents a different strategy to enable the printing of brittle filaments without the use of additional excipients by adapting the feeding mechanism to piston feeding. The polymers Soluplus®, Kollidon® VA64 and Eudragit® E PO were used, which have been reported to be brittle. Ketoconazole was used as model compound at 40% drug load and the influence on the mechanical properties was investigated using the three-point flexural test. In order to gain a better understanding of the mechanism affecting brittleness, filaments were analyzed in terms of crystallinity and miscibility of the components using polarized microscopy, differential scanning calorimetry and X-ray diffraction. Printing was performed with the aim to obtain immediate release tablets. The addition of Ketoconazole resulted in filaments even more brittle than placebo filaments. Nevertheless, the adaption of the feeding mechanism enabled the successful manufacturing of uniform tablets from all formulations.