Proposal of a Novel Natural Biomaterial, the Scleral Ossicle, for the Development of Vascularized Bone Tissue In Vitro.
Marta ChecchiJessika BertacchiniGiulia GrisendiAlberto SmargiassiAntonella SolaMassimo MessoriCarla PalumboPublished in: Biomedicines (2017)
Recovering of significant skeletal defects could be partially abortive due to the perturbations that affect the regenerative process when defects reach a critical size, thus resulting in a non-healed bone. The current standard treatments include allografting, autografting, and other bone implant techniques. However, although they are commonly used in orthopedic surgery, these treatments have some limitations concerning their costs and their side effects such as potential infections or malunions. On this account, the need for suitable constructs to fill the gap in wide fractures is still urgent. As an innovative solution, scleral ossicles (SOs) can be put forward as natural scaffolds for bone repair. SOs are peculiar bony plates forming a ring at the scleral-corneal border of the eyeball of lower vertebrates. In the preliminary phases of the study, these ossicles were structurally and functionally characterized. The morphological characterization was performed by SEM analysis, MicroCT analysis and optical profilometry. Then, UV sterilization was carried out to obtain a clean support, without neither contaminations nor modifications of the bone architecture. Subsequently, the SO biocompatibility was tested in culture with different cell lines, focusing the attention to the differentiation capability of endothelial and osteoblastic cells on the SO surface. The results obtained by the above mentioned analysis strongly suggest that SOs can be used as bio-scaffolds for functionalization processes, useful in regenerative medicine.
Keyphrases
- bone mineral density
- soft tissue
- bone loss
- tissue engineering
- stem cells
- minimally invasive
- mesenchymal stem cells
- high resolution
- working memory
- coronary artery disease
- body composition
- induced apoptosis
- optical coherence tomography
- risk assessment
- high speed
- vascular smooth muscle cells
- acute coronary syndrome
- cell cycle arrest
- data analysis