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Cell microencapsulation has been utilized for years as a means for cell shielding from the external environment while facilitating the transport of gases, general metabolites, and secretory bioactive molecules at once. In this work, we developed and characterized a novel way to obtain silk fibroin (SF) microgels (µgels) as a versatile platform to encapsulate relevant cell types for therapeutic purposes.

Perotto, G., Ponti, F., Saroglia, G., Marcuzzo, S., Giagnorio, E., Lauria, G., et al. (2023). Cell encapsulation into silk fibroin microgels. In 8th National Congress of Bioengineering, GNB 2023. Patron Editore S.r.l..

Cell encapsulation into silk fibroin microgels

Giagnorio E.;
2023

Abstract

Cell microencapsulation has been utilized for years as a means for cell shielding from the external environment while facilitating the transport of gases, general metabolites, and secretory bioactive molecules at once. In this work, we developed and characterized a novel way to obtain silk fibroin (SF) microgels (µgels) as a versatile platform to encapsulate relevant cell types for therapeutic purposes.
paper
cell encapsulation; cell therapy; hydrogels; silk fibroin;
English
8th National Congress of Bioengineering, GNB 2023 - 21 June 2023 through 23 June 2023
2023
8th National Congress of Bioengineering, GNB 2023
9788855580113
2023
none
Perotto, G., Ponti, F., Saroglia, G., Marcuzzo, S., Giagnorio, E., Lauria, G., et al. (2023). Cell encapsulation into silk fibroin microgels. In 8th National Congress of Bioengineering, GNB 2023. Patron Editore S.r.l..
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/531116
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