The incorporation of marine coral microparticles into collagen-based scaffolds promotes osteogenesis of human mesenchymal stromal cells via calcium ion signalling.
journal contributionposted on 01.12.2021, 16:28 authored by Eamon SheehyEamon Sheehy, Mark Lemoine, Declan Clarke, Arlyng Gyveth Gonzalez VazquezArlyng Gyveth Gonzalez Vazquez, Fergal O'BrienFergal O'Brien
Composite biomaterial scaffolds consisting of natural polymers and bioceramics may offer an alternative to autologous grafts for applications such as bone repair. Herein, we sought to investigate the possibility of incorporating marine coral microparticles into a collagen-based scaffold, a process which we hypothesised would enhance the mechanical properties of the scaffold as well its capacity to promote osteogenesis of human mesenchymal stromal cells. Cryomilling and sieving were utilised to achieve coral microparticles of mean diameters 14 µm and 64 µm which were separately incorporated into collagen-based slurries and freeze-dried to form porous scaffolds. X-ray diffraction and Fourier transform infrared spectroscopy determined the coral microparticles to be comprised of calcium carbonate whereas collagen/coral composite scaffolds were shown to have a crystalline calcium ethanoate structure. Crosslinked collagen/coral scaffolds demonstrated enhanced compressive properties when compared to collagen only scaffolds and also promoted more robust osteogenic differentiation of mesenchymal stromal cells, as indicated by increased expression of bone morphogenetic protein 2 at the gene level, and enhanced alkaline phosphatase activity and calcium accumulation at the protein level. Only subtle differences were observed when comparing the effect of coral microparticles of different sizes, with improved osteogenesis occurring as a result of calcium ion signalling delivered from collagen/coral composite scaffolds. These scaffolds, fabricated from entirely natural sources, therefore show promise as novel biomaterials for tissue engineering applications such as bone regeneration.
EU BlueHuman Intereg Atlantic Area Project (EAPA_151/2016)
Enterprise Ireland Innovation Voucher (IV-2017-3259)
Associated research data filesSupplementary materials available at: http://www.mdpi.com/1660-3397/18/2/74/s1
CommentsThe original article is available at https://www.mdpi.com/
Published CitationSheehy EJ, Lemoine M, Clarke D, Gonzalez Vazquez A, O'Brien FJ. The incorporation of marine coral microparticles into collagen-based scaffolds promotes osteogenesis of human mesenchymal stromal cells via calcium ion signalling. Marine Drugs. 2020;18(2):74.
Publication Date23 January 2020
- Amber (Advanced Material & Bioengineering Research) Centre
- Anatomy and Regenerative Medicine
- Chemistry and Pharmaceutical Sciences
- Biomaterials and Regenerative Medicine
- Immunity, Infection and Inflammation
- Published Version (Version of Record)