Journal article

Drug delivery <i>via</i> a 3D electro-swellable conjugated polymer hydrogel

Abstract:: Spatiotemporal controlled drug delivery minimizes side-effects and enables therapies that require specific dosing patterns. Conjugated polymers (CP) can be used for electrically controlled drug delivery; however so far, most demonstrations were limited to molecules up to 500 Da. Larger molecules could be incorporated only during the CP polymerization and thus limited to a single delivery. This work harnesses the record volume changes of a glycolated polythiophene p(g3T2) for controlled drug delivery. p(g3T2) undergoes reversible volumetric changes of up to 300% during electrochemical doping, forming pores in the nm-size range, resulting in a conducting hydrogel. p(g3T2)-coated 3D carbon sponges enable controlled loading and release of molecules spanning molecular weights of 800-6000 Da, from simple dyes up to the hormone insulin. Molecules are loaded as a combination of electrostatic interactions with the charged polymer backbone and physical entrapment in the porous matrix. Smaller molecules leak out of the polymer while larger ones could not be loaded effectively. Finally, this work shows the temporally patterned release of molecules with molecular weight of 1300 Da and multiple reloading and release cycles without affecting the on/off ratio

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Abdel Aziz, I., Gladisch, J., Griggs, S., Moser, M., Biesmans, H., Beloqui, A., McCulloch, I., Berggren, M., & Stavrinidou, E. (2024). Drug delivery <i>via</i> a 3D electro-swellable conjugated polymer hydrogel. Journal of Materials Chemistry B: Materials for Biology and Medicine, 12(16), 4029–4038.

MLA Style

Abdel Aziz, I, et al. “Drug Delivery <i>via</i> a 3D Electro-Swellable Conjugated Polymer Hydrogel.” Journal of Materials Chemistry B: Materials for Biology and Medicine, vol. 12, no. 16, 2024, pp. 4029–38.

Chicago Style

Abdel Aziz, I, J Gladisch, S Griggs, et al. 2024. “Drug Delivery <i>via</i> a 3D Electro-Swellable Conjugated Polymer Hydrogel.” Journal of Materials Chemistry B: Materials for Biology and Medicine 12 (16): 4029–38.
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Files:: Abdel_Aziz_et_al_2024_Drug_delivery_<i>via<_i>.pdf</i>

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Publisher copy:: 10.1039/d3tb02592f

Authors

+ Abdel Aziz, I More by this author

Role:: Author

+ Gladisch, J More by this author

Role:: Author

+ Griggs, S More by this author

Institution:: University of Oxford
Role:: Author
ORCID:: 0000-0002-5916-6609

+ Moser, M More by this author

Institution:: University of Oxford
Role:: Author
ORCID:: 0000-0002-3293-9309

+ Biesmans, H More by this author

Role:: Author
ORCID:: 0000-0001-6124-4250

More authors...

+ Vetenskapsrådet More from this funder

Funder identifier:: 10.13039/501100004359
Grant:: VR-2020-05045

+ Stiftelsen för Strategisk Forskning More from this funder

Funder identifier:: 10.13039/501100011751
Grant:: FFL18- 0101

Publisher:: Royal Society of Chemistry
Journal:: Journal of Materials Chemistry B: Materials for biology and medicine More from this journal
Volume:: 12
Issue:: 16
Pages:: 4029-4038
Publication date:: 2024-04-24
DOI:: 10.1039/d3tb02592f
EISSN:: 2050-7518
ISSN:: 2050-750X

Language:: English
Keywords:: Polymer chemistry

Molecule

Chemistry

Composite material

Conjugated system

Polymerization

Drug delivery

Materials science

Small molecule

Nanotechnology

Conductive polymer

Organic chemistry

Controlled release

Polythiophene

Chemical engineering

Polymer
Pubs id:: 1989844
Local pid:: pubs:1989844
Source identifiers:: W4393187833
Deposit date:: 2026-06-10
ARK identifier:: ark:/29072/ora_45d74395bf1d4bb4b7e3f08b08b49644

Terms of use

Copyright date:: 2024

Licence:: CC Attribution (CC BY)

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