4.7 Article

Supercritical Fluid Technology for the Development of 3D Printed Controlled Drug Release Dosage Forms

Journal

PHARMACEUTICS
Volume 13, Issue 4, Pages -

Publisher

MDPI
DOI: 10.3390/pharmaceutics13040543

Keywords

3D printing; supercritical; carbon dioxide; controlled particle deposition; controlled drug release

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The loading of 3D printed drug carriers with APIs using supercritical CO2 shows potential for personalized medicine. By adjusting the pore sizes of the carriers, the drug release rate of the dosage forms can be easily tailored to individual needs.
Supercritical CO2 loading of preformed 3D printed drug carriers with active pharmaceutical ingredients (APIs) shows great potential in the development of oral dosage forms for future personalized medicine. We designed 3D printed scaffold like drug carriers with varying pore sizes made from polylactic acid (PLA) using a fused deposition modelling (FDM) 3D printer. The 3D printed drug carriers were then loaded with Ibuprofen as a model drug, employing the controlled particle deposition (CPD) process from supercritical CO2. Carriers with varying pore sizes (0.027-0.125 mm) were constructed and loaded with Ibuprofen to yield drug-loaded carriers with a total amount of 0.83-2.67 mg API (0.32-1.41% w/w). Dissolution studies of the carriers show a significantly decreasing dissolution rate with decreasing pore sizes with a mean dissolution time (MDT) of 8.7 min for the largest pore size and 128.2 min for the smallest pore size. The API dissolution mechanism from the carriers was determined to be Fickian diffusion from the non-soluble, non-swelling carriers. Using 3D printing in combination with the CPD process, we were able to develop dosage forms with individually tailored controlled drug release. The dissolution rate of our dosage forms can be easily adjusted to the individual needs by modifying the pore sizes of the 3D printed carriers.

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