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3D Printed Laminated CaCO3-Nanocellulose Films as Controlled-Release 5-Fluorouracil

Denesh Mohan, Nur Fatin Khairullah, Yan Ping How, Mohd Shaiful Sajab, Hatika Kaco

2020Polymers41 citationsDOIOpen Access PDF

Abstract

Drug delivery constitutes the formulations, technologies, and systems for the transport of pharmaceutical compounds to specific areas in the body to exert safe therapeutic effects. The main criteria for selecting the correct medium for drug delivery are the quantity of the drug being carried and the amount of time required to release the drug. Hence, this research aimed to improve the aforementioned criteria by synthesizing a medium based on calcium carbonate-nanocellulose composite and evaluating its efficiency as a medium for drug delivery. Specifically, the efficiency was assessed in terms of the rates of uptake and release of 5-fluorouracil. Through the evaluation of the morphological and chemical properties of the synthesized composite, the established 3D printing profiles of nanocellulose and CaCO3 took place following the layer-by-layer films. The 3D printed double laminated CaCO3-nanocellulose managed to release the 5-fluorouracil as an effective single composition and in a time-controlled manner.

Topics & Concepts

NanocelluloseDrug deliveryComposite numberMaterials scienceNanotechnologyCalcium carbonateControlled releaseDrugChemical engineeringChemistryComposite materialOrganic chemistryCellulosePharmacologyMedicineEngineering3D Printing in Biomedical ResearchAdditive Manufacturing and 3D Printing Technologiesbiodegradable polymer synthesis and properties
3D Printed Laminated CaCO3-Nanocellulose Films as Controlled-Release 5-Fluorouracil | Litcius