Simisola Oladeji scite author profile

Objectives To develop a robust tablet design for the manufacture of gastro-retentive tablets using fused deposition modelling three-dimensional printing (FDM-3DP) that can provide prolonged gastric residence time with instant floating and minimum influence of process and/or formulation variables. Methods Three different polymers, such as polyvinyl alcohol (PVA), hydroxypropyl cellulose (HPC) and Soluplus were used, separately, for the manufacture of tablets using FDM-3DP. Tablets were designed in a sandwich model that included voids in the internal structure to support buoyancy. Key findings Fabricated tablets from all polymers were instantly buoyant with no floating lag time. Floating duration was in the order: HPC > Soluplus > PVA which can be explained by the density of the tablets. PVA tablets exhibited significantly (P < 0.05) higher density values (0.86 ± 0.02 mg/mm3) than HPC and Soluplus (0.69 ± 0.03 and 0.72 ± 0.02 mg/mm3, respectively). HPC and Soluplus showed similar zero-order drug release profiles (f2 > 50) and were able to sustain the release of theophylline for 12 h, whereas complete drug release was achieved from PVA tablets after 3 h. Conclusions Robust gastro-retentive tablets that show instant buoyancy regardless of the polymeric carrier type and composition were successfully manufactured utilising FDM-3DP. This allows for overcoming the restrictions posed by process/formulation parameters on the floatability of gastro-retentive tablets.

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Simisola Oladeji

3D printing of pharmaceutical oral solid dosage forms by fused deposition: The enhancement of printability using plasticised HPMCAS

The development and optimisation of gastro-retentive floating tablets using fused deposition modelling 3D printing

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