Exploring Environmental Settings to Improve the Printability of Paroxetine-Loaded Filaments by Fused Deposition Modelling

Abstract: The successful integration of hot-melt extrusion (HME) and fused deposition modelling (FDM) depends on a better understanding of the impact of environmental conditions on the printability of formulations, since they significantly affect the properties of the raw materials, whose control is crucial to enable three-dimensional printing (3DP). Hence, the objective of this work was to investigate the correlation between the environmental settings and the properties of paroxetine (PRX)-loaded filaments, previously … Show more

“…This approach would eliminate the need for conventional tableting excipients such as fillers, binders, and disintegrants. Three-dimensional printing requires APIs and excipients to be thermostable (due to the high process temperatures involved) with low hygroscopicity, as water liberated during melting and extruding can produce air pockets within the mixture and compromise the integrity of the filament [ 194 ].…”

Fixed-Dose Combination Formulations in Solid Oral Drug Therapy: Advantages, Limitations, and Design Features

“…This approach would eliminate the need for conventional tableting excipients such as fillers, binders, and disintegrants. Three-dimensional printing requires APIs and excipients to be thermostable (due to the high process temperatures involved) with low hygroscopicity, as water liberated during melting and extruding can produce air pockets within the mixture and compromise the integrity of the filament [ 194 ].…”

Fixed-Dose Combination Formulations in Solid Oral Drug Therapy: Advantages, Limitations, and Design Features

Development of 3D-printed dual-release fixed-dose combination through double-melt extrusion

Temperature and Humidity Control System to Address Filament Brittleness in 3D Printers