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Microalgae-enriched (bio)inks for 3D bioprinting of cultured seafood

Diana M. C. Marques, Madalena Jabouille, Afonso Gusmão, Marco Leite, Paola Sanjuan‐Alberte, Frederico Castelo Ferreira

2025npj Science of Food16 citationsDOIOpen Access PDF

Abstract

Cultured seafood offers a sustainable alternative to traditional seafood by eliminating the need for animal sacrifice and reducing environmental impacts. 3D bioprinting enables precise manufacturing of these products by combining animal cells with plant-based materials. This study introduces novel (bio)inks: (i) κ-CAM bioinks (κ-carrageenan, alginate, and methylcellulose) compatible with seabass cells; and (ii) mFAT inks, plant-based fat inks containing microalgae for enhanced organoleptic properties. κ-CAM bioinks revealed Young's modulus between 14.62 and 25.70 kPa values, suitable for cultured seafood products. Both κ-CAM and mFAT formulations presented adequate printability (Pr~1). Dicentrarchus labrax Embryonic Cells, encapsulated in κ-CAM bioinks, maintained viabilities >76.14% for up to 15 days. A preliminary assessment confirmed that specific microalgae can enhance the sea-like smell and flavor of the mFAT ink, and a 3D-printed calamari was fabricated to showcase its potential in the manufacturing of complex structures. Finally, hybrid structures combining both types of (bio)inks were also developed.

Topics & Concepts

CarrageenanFood scienceMaterials scienceBiochemical engineeringChemistryEngineering3D Printing in Biomedical ResearchPlanarian Biology and ElectrostimulationCephalopods and Marine Biology
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