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Marine Collagen from European Sea Bass (Dicentrarchus labrax) Waste for the Development of Chitosan/Collagen Scaffolds in Skin Tissue Engineering

Alessandro Coppola, Maria Oliviero, Noemi De Cesare, Nello Russo, Noemi Nappo, Carmine Buonocore, Gerardo Della Sala, Pietro Tedesco, Fortunato Palma Esposito, Christian Galasso, Donatella de Pascale, Ugo D’Amora, Daniela Coppola

2025Marine Drugs5 citationsDOIOpen Access PDF

Abstract

Over the past years, with the growing interest in sustainable biomaterials, marine collagen has been emerging as an interesting alternative to bovine collagen. It is more easily absorbed by the body and has higher bioavailability. In this study, collagen was extracted from Dicentrarchus labrax (sea bass) skin, a fishery by-product, thus valorizing waste streams while reducing environmental impact. To overcome the intrinsic weak mechanical of collagen, it was combined with chitosan to produce composite scaffolds for skin tissue engineering. The incorporation of collagen proved crucial for scaffold performance: (i) it promoted the formation of an open-pore architecture, favorable for cell infiltration and proliferation; (ii) it enhanced swelling behavior suitable for exudate absorption and maintenance of a moist wound environment; (iii) by tuning the chitosan/collagen ratio, it enabled us to control the degradation rate; (iv) it conferred antioxidant properties; and (iv) by adjusting collagen/chitosan concentrations, it allowed fine-tuning of mechanical properties, ensuring sufficient strength to resist stresses encountered during wound healing. In vitro assays demonstrated that the scaffolds were non-cytotoxic and effectively supported mouse adipose tissue fibroblasts’ adhesion and proliferation. Finally, all formulations exhibited marked bactericidal activity against the human pathogen Staphylococcus aureus and the methicillin-resistant Staphylococcus aureus, with a Log reduction greater than 3 (a reduction of at least 99.9% in bacterial growth) compared to the control. Collectively, these findings highlight collagen not only as a sustainable resource but also as a functional component that drives the structural, physicochemical, biological, and antimicrobial performance of chitosan/collagen scaffolds for skin tissue engineering.

Topics & Concepts

ChemistryChitosanTissue engineeringScaffoldWound healingBiomedical engineeringAntioxidantAdipose tissueSwellingInfiltration (HVAC)In vivoMechanical strengthTissue remodelingIn vitroResource recoveryHuman skinAbsorption of waterCellNecrotic tissueTissue repairAntimicrobialCellular infiltrationFood scienceCell biologyAntifungalTissue cultureAdhesionBiophysicsCollagen: Extraction and Characterization