Litcius/Paper detail

Semi-solid extrusion 3D printing of starch-based soft dosage forms for the treatment of paediatric latent tuberculosis infection

Aikaterini‐Theodora Chatzitaki, Emmanouela Mystiridou, Nikolaos Bouropoulos, Christos Ritzoulis, Christina Karavasili, Dimitrios G. Fatouros

2021Journal of Pharmacy and Pharmacology32 citationsDOI

Abstract

OBJECTIVES: The development of age-appropriate dosage forms is essential for effective pharmacotherapy, especially when long-term drug treatment is required, as in the case of latent tuberculosis infection treatment with up to 9 months of daily isoniazid (ISO). Herein, we describe the fabrication of starch-based soft dosage forms of ISO using semi-solid extrusion (SSE) 3D printing. METHODS: Corn starch was used for ink preparation using ISO as model drug. The inks were characterized physicochemically and their viscoelastic properties were assessed with rheological analysis. The morphology of the printed dosage forms was visualized with scanning electron microscopy and their textural properties were evaluated using texture analysis. Dose accuracy was verified before in-vitro swelling and dissolution studies in simulated gastric fluid (SGF). KEY FINDINGS: Starch inks were printed with good resolution and high drug dose accuracy. The printed dosage forms had a soft texture to ease administration in paediatric patients and a highly porous microstructure facilitating water penetration and ISO diffusion in SGF, resulting in almost total drug release within 45 min. CONCLUSIONS: The ease of preparation and fabrication combined with the cost-effectiveness of the starting materials constitutes SSE 3D printing of starch-based soft dosage forms a viable approach for paediatric-friendly formulations in low-resource settings.

Topics & Concepts

Dosage formExtrusionMaterials scienceStarchBiomedical engineeringDrug deliveryBiofabricationDissolution testingChromatographyMedicineComposite materialNanotechnologyChemistryPolymerOrganic chemistryTissue engineeringEthyl cellulose3D Printing in Biomedical ResearchDrug Solubulity and Delivery SystemsAdditive Manufacturing and 3D Printing Technologies