Unraveling the Potential of Chondrosia reniformis Collagen for Tissue Engineering Scaffolds, with Particular Insights into Chondrogenic Differentiation
Miguel S. Rocha, Ana C. Carvalho, Catarina F. Marques, Filipa Carneiro, Rita O. Sousa, Eva Martins, Eleonora Tassara, Rui L. Reis, Tiago H. Silva

TL;DR
This study explores the use of collagen from a marine sponge to create scaffolds that support cell growth and cartilage development for tissue engineering.
Contribution
The study introduces a novel marine collagen source and evaluates its cross-linking methods for tissue engineering applications.
Findings
Genipin-cross-linked scaffolds showed larger pore sizes and better cell proliferation.
Human adipose stem cells exhibited early chondrogenic differentiation on the scaffolds.
C. reniformis collagen is a promising material for cartilage regeneration.
Abstract
Evaluating the biomedical potential of marine biopolymers is a promising strategy for their high-value application. This study investigated the ability of collagen derived from Chondrosia reniformis to support cell proliferation and chondrogenic differentiation, assessing its suitability for tissue regeneration. Collagen was isolated, preserving its fibrillar structure and glycosylation features, then cross-linked with EDC, genipin, or glutaraldehyde to produce freeze-dried scaffolds. The resulting structures were characterized in terms of physicochemical properties, morphology, degradation, rheology, and cytocompatibility. While all scaffolds showed comparable degradation and rheological behavior, genipin-cross-linked scaffolds exhibited larger pore sizes, whereas glutaraldehyde-cross-linked scaffolds showed higher water uptake. In vitro assays using ATDC5, BJ, and EA.hy926 cell lines…
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Taxonomy
TopicsCollagen: Extraction and Characterization · Osteoarthritis Treatment and Mechanisms · Nasal Surgery and Airway Studies
