Material considerations for fused-filament fabrication of solid dosage forms.
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Date
2018-04Author
Fuenmayor, Evert
Forde, Martin
Healy, Andrew V.
Devine, Declan M.
Lyons, John G.
McConville, Christopher
Major, Ian
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Material choice is a fundamental consideration when it comes to designing a solid dosage
form. The matrix material will ultimately determine the rate of drug release since the physical
properties (solubility, viscosity, and more) of the material control both fluid ingress and disintegration
of the dosage form. The bulk properties (powder flow, concentration, and more) of the material
should also be considered since these properties will influence the ability of the material to be
successfully manufactured. Furthermore, there is a limited number of approved materials for the
production of solid dosage forms. The present study details the complications that can arise when
adopting pharmaceutical grade polymers for fused-filament fabrication in the production of oral
tablets. The paper also presents ways to overcome each issue. Fused-filament fabrication is a
hot-melt extrusion-based 3D printing process. The paper describes the problems encountered in
fused-filament fabrication with Kollidon® VA64, which is a material that has previously been utilized
in direct compression and hot-melt extrusion processes. Formulation and melt-blending strategies
were employed to increase the printability of the material. The paper defines for the first time the
essential parameter profile required for successful 3D printing and lists several pre-screening tools
that should be employed to guide future material formulation for the fused-filament fabrication of solid dosage forms.
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