4.6 Article

4D printing of core-shell hydrogel capsules for smart controlled drug release

Journal

BIO-DESIGN AND MANUFACTURING
Volume 5, Issue 2, Pages 294-304

Publisher

SPRINGER HEIDELBERG
DOI: 10.1007/s42242-021-00175-y

Keywords

4D printing; Hydrogel capsules; Controlled release; Poly(N-isopropylacrylamide) (PNIPAM); Personalized drugs

Funding

  1. National Key R&D Program of China [2018YFB1105100]

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Researchers have developed core-shell structured hydrogel capsules using four-dimensional (4D) printing, which can autonomously control drug release based on temperature and shell thickness. This method shows great potential in smart controlled release of drugs and macromolecular active agents.
Personalized drugs, as well as disease-specific and condition-dependent drug release, have been highly desired in drug delivery systems for effective and safe therapies. Four-dimensional (4D) printing, as a newly emerging technique to develop drug capsules, displays unique advantages that can autonomously control drug release according to the actual physiological circumstances. Herein, core-shell structured hydrogel capsules were developed using a multimaterial extrusion-based 4D printing method, which consists of a model drug as the core and UV cross-linked poly(N-isopropylacrylamide) (PNIPAM) hydrogel as the shell. Owing to the lower critical solution temperature (LCST)-induced shrinking/swelling properties, the prepared PNIPAM hydrogel capsules showed temperature-responsive drug release along with the topography changes in the cross-linked PNIPAM network. The in vitro drug release test confirmed that the PNIPAM hydrogel capsules can autonomously control their drug release behaviors according to changes in ambient temperature. Moreover, the increased shell thickness of these capsules causes an obvious reduction in drug release rate, distinctly indicating that the drug release behavior can be well adjusted by setting the shell thickness of the capsules. The proposed 4D printing strategy pioneers the paradigm of smart drug release by showing great potential in the smart controlled release of drugs and macromolecular active agents. [GRAPHICS] .

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