Novel chitin scaffolds derived from marine sponge Ianthella basta for tissue engineering approaches based on human mesenchymal stromal cells: Biocompatibility and cryopreservation

The extraordinary biocompatibility and mechanical properties of chitinous scaffolds from marine sponges endows these structures with unique properties that render them ideal for diverse biomedical applications. In the present work, a technological route to produce “ready-to-use” tissue-engineered pr...

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Bibliographic Details
Published in:International journal of biological macromolecules 2017-11, Vol.104 (Pt B), p.1955-1965
Main Authors: Mutsenko, Vitalii V., Gryshkov, Oleksandr, Lauterboeck, Lothar, Rogulska, Olena, Tarusin, Dmitriy N., Bazhenov, Vasilii V., Schütz, Kathleen, Brüggemeier, Sophie, Gossla, Elke, Akkineni, Ashwini R., Meißner, Heike, Lode, Anja, Meschke, Stephan, Fromont, Jane, Stelling, Allison L., Tabachnik, Konstantin R., Gelinsky, Michael, Nikulin, Sergey, Rodin, Sergey, Tonevitsky, Alexander G., Petrenko, Alexander Y., Glasmacher, Birgit, Schupp, Peter J., Ehrlich, Hermann
Format: Article
Language:English
Subjects:
Adipogenesis
Animals
Biocompatible Materials - chemistry
Cell Differentiation
Chitin
Chitin - chemistry
Cryopreservation
Humans
Marine sponges
Materials Testing
Mesenchymal stromal cells
Mesenchymal Stromal Cells - cytology
Porifera - chemistry
Scaffolds
Spectroscopy, Fourier Transform Infrared
Tissue engineering
Tissue Engineering - methods
Tissue Scaffolds
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Summary:The extraordinary biocompatibility and mechanical properties of chitinous scaffolds from marine sponges endows these structures with unique properties that render them ideal for diverse biomedical applications. In the present work, a technological route to produce “ready-to-use” tissue-engineered products based on poriferan chitin is comprehensively investigated for the first time. Three key stages included isolation of scaffolds from the marine demosponge Ianthella basta, confirmation of their biocompatibility with human mesenchymal stromal cells, and cryopreservation of the tissue-like structures grown within these scaffolds using a slow cooling protocol. Biocompatibility of the macroporous, flat chitin scaffolds has been confirmed by cell attachment, high cell viability and the ability to differentiate into the adipogenic lineage. The viability of cells cryopreserved on chitin scaffolds was reduced by about 30% as compared to cells cryopreserved in suspension. However, the surviving cells were able to retain their differentiation potential; and this is demonstrated for the adipogenic lineage. The results suggest that chitin from the marine demosponge I. basta is a promising, highly biocompatible biomaterial for stem cell-based tissue-engineering applications.
ISSN:0141-8130
1879-0003
1879-0003
DOI:10.1016/j.ijbiomac.2017.03.161