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Silk fibroin increases the elasticity of alginate-gelatin hydrogels and regulates cardiac cell contractile function in cardiac bioinks

Laura Vettori, Hien A. Tran, Hadi Mahmodi, Elysse C. Filipe, K. Wyllie, Clara Liu Chung Ming, Thomas R. Cox, Joanne L. Tipper, Irina V. Kabakova, Jelena Rnjak‐Kovacina, Carmine Gentile

2024Biofabrication15 citationsDOIOpen Access PDF

Abstract

silkworm thread. From its common use in the textile industry, it emerged as a biomaterial with promising biochemical and mechanical properties for applications in the field of tissue engineering and regenerative medicine. In this study, we evaluate for the first time the effects of SF on cardiac bioink formulations containing cardiac spheroids (CSs). First, we evaluate if the SF addition plays a role in the structural and elastic properties of hydrogels containing alginate (Alg) and gelatin (Gel). Then, we test the printability and durability of bioprinted SF-containing hydrogels. Finally, we evaluate whether the addition of SF controls cell viability and function of CSs in Alg-Gel hydrogels. Our findings show that the addition of 1% (w/v) SF to Alg-Gel hydrogels makes them more elastic without affecting cell viability. However, fractional shortening (FS%) of CSs in SF-Alg-Gel hydrogels increases without affecting their contraction frequency, suggesting an improvement in contractile function in the 3D cultures. Altogether, our findings support a promising pathway to bioengineer bioinks containing SF for cardiac applications, with the ability to control mechanical and cellular features in cardiac bioinks.

Topics & Concepts

FibroinGelatinSelf-healing hydrogelsMaterials scienceCardiac cellElasticity (physics)Cardiac function curveFunction (biology)Biomedical engineeringBiophysicsComposite materialCardiologyInternal medicineSILKChemistryCell biologyPolymer chemistryMedicineBiochemistryBiologyHeart failureSilk-based biomaterials and applicationsElectrospun Nanofibers in Biomedical Applications3D Printing in Biomedical Research
Silk fibroin increases the elasticity of alginate-gelatin hydrogels and regulates cardiac cell contractile function in cardiac bioinks | Litcius